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IN THE CLAIMS 



CLAIM 1 (Previously Presented) A superconducting apparatus comprising a 
composition having a transition temperature greater than or equal to 26°K, the 
composition including a rare earth or rare earth-like element, a transition metal element 
capable of exhibiting multivalent states and oxygen, including at least one phase that 
exhibits superconductivity at temperature greater than or equal to 26°K, a means for 
maintaining said composition at said temperature to exhibit said superconductivity and 
means for passing an electrical superconducting current through said composition while 
exhibiting said superconductivity. 

CLAIM 2 (Previously Presented) The superconducting apparatus of claim 1 , further 
including an alkaline earth element substituted for at least one atom of said rare earth 
or rare earth-like element in said composition. 

CLAIM 3 (Previously Presented) The superconducting apparatus of claim 2, where said 
transition metal is Cu. 

CLAIM 4 (Previously Presented) The superconducting apparatus of claim 3, where said 
alkaline earth element is selected from the group consisting of B, Ca, Ba, and Sr. 

CLAIM 5 (Previously Presented) The superconducting apparatus of claim 1 , where said 
transition metal element is selected from the group consisting of Cu, Ni, and Cr. 

CLAIM 6 (Previously Presented) The superconducting apparatus of claim 2, where said 
rare earth or rare earth-like element is selected from the group consisting of La, Nd, 
and Ce. 

CLAIM 7 (Previously Presented) The superconducting apparatus of claim 1 , where said 
phase is crystalline with a perovskite-like structure. 



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CLAIM 8 (Previously Presented) The superconducting apparatus of claim 2, where said 
phase is crystalline with a perovskite-like structure. 

CLAIM 9 (Previously Presented) The superconducting apparatus of claim 1 , where said 
phase exhibits a layer-like crystalline structure. 

CLAIM 10 (Previously Presented) The superconducting apparatus of claim 1 , where 
said phase is a mixed copper oxide phase. 

CLAIM 1 1 (Previously Presented) The superconducting apparatus of claim 1 , where 
said composition is comprised of mixed oxides with alkaline earth doping. 

CLAIM 12 (Previously Presented) A superconducting combination, including a 
superconductive composition having a transition temperature greater than or equal to 
26°K, 

means for passing a superconducting electrical current through said composition while 
said composition is at a temperature greater than or equal to 26°K and less than said 
transition temperature, and 

cooling means for cooling said composition to a superconducting state at a temperature 
greater than or equal to 26° K. 

CLAIM 13 (Original) The combination of claim 12, where said superconductive 
composition includes a transition metal oxide. 

CLAIM 14 (Original) The combination of claim 12, where said superconductive 
composition includes Cu-oxide. 



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CLAIM 15 (Original) The combination of claim 12, where said superconductive 
composition includes a multivalent transition metal, oxygen, and at least one additional 
element. 

CLAIM 16 (Original) The combination of claim 15, where said transition metal is Cu. 

CLAIM 17 (Original) The combination of claim 15, where said additional element is a 
rare earth or rare earth-like element. 

CLAIM 18 (Original) The combination of claim 15, where said additional element is an 
alkaline earth element. 

CLAIM 19 (Original) The combination of claim 12, where said composition includes a 
perovskite-like superconducting phase. 

CLAIM 20 (Original) The combination of claim 12, where said composition includes a 
substituted transition metal oxide. 

CLAIM 21 (Original) The combination of claim 20, where said substituted transition 
metal oxide includes a multivalent transition metal element. 

CLAIM 22 (Original) The combination of claim 20, where said substituted transition 
metal oxide is an oxide of copper. 

CLAIM 23 (Original) The combination of claim 20, where said substituted transition 
metal oxide has a layer-like structure. 

CLAIM 24 (Previously Presented) An apparatus comprising: 

a transition metal oxide having a phase therein which exhibits a superconducting state 
at a critical temperature greater than or equal to of 26°K, 



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means for lowering the temperature of said material at least to said critical temperature 
to produce said superconducting state in said phase, and 

means for passing an electrical superconducting current through said transition metal 
oxide while it is in said superconducting state. 

CLAIM 25 (Previously Presented) The apparatus of claim 24, where said transition 
metal oxide is comprised of a transition metal capable of exhibiting multivalent states. 

CLAIM 26 (Previously Presented) The apparatus of claim 24, where said transition 
metal oxide is comprised of a Cu oxide. 

CLAIM 27 (Previously Presented) A superconducting apparatus comprising a 
composition having a transition temperature greater than or equal to 26°K, said 
composition being a substituted Cu-oxide including a superconducting phase having a 
structure which is structurally substantially similar to the orthorhombic-tetragonal phase 
of said composition, means for maintaining said composition at a temperature greater 
than or equal to said transition temperature to put said composition in a 
superconducting state; and means for passing current through said composition while 
in said superconducting state. 

CLAIM 28 (Previously Presented) The superconducting apparatus of claim 27, where 
said substituted Cu-oxide includes a rare earth or rare earth-like element. 

CLAIM 29 (Previously Presented) The superconducting apparatus of claim 27, where 
said substituted Cu-oxide includes an alkaline earth element. 

CLAIM 30 (Previously Presented) The superconducting apparatus of claim 29, where 
said alkaline earth element is atomically large with respect to Cu. 



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CLAIM 31 (Previously Presented) The superconducting apparatus of claim 27, where 
said composition has a crystalline structure which enhances electron-phonon 
interactions to produce superconductivity at a temperature greater than or equal to 
26°K. 

CLAIM 32 (Original) The superconducting apparatus of claim 31, where said crystalline 
structure is layer-like, enhancing the number of Jahn-Teller polarons in said composite. 

CLAIM 33 (Previously Presented) A superconducting apparatus comprising a 
composition having a superconducting onset temperature greater than or equal to 26°K, 
the composition being comprised of a copper oxide doped with an alkaline earth 
element where the concentration of said alkaline earth element is near to the 
concentration of said alkaline earth element where the superconducting copper oxide 
phase in said composition undergoes an orthorhombic to tetragonal structural phase 
transition. 

CLAIM 34 (Previously Presented) A superconducting apparatus having a 
superconducting onset temperature greater than or equal to 26°K, the composition 
being comprised of a mixed copper oxide doped with an element chosen to result in 
Cu 3 * ions in said composition and a means for passing a superconducting current 
through said superconducting composition. 

CLAIM 35 (Previously Presented) The superconducting apparatus of claim 34, where 
said doping element includes an alkaline earth element. 

CLAIM 36 (Previously Presented) A combination comprising: 

a composition having a superconducting onset temperature greater than or equal to 
26°K, said composition being comprised of a substituted copper oxide exhibiting mixed 
valence states and at least one other element in its crystalline structure, 



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means for passing a superconducting electrical current through said composition while 
said composition is at a temperature greater than or equal to 26°K and less than said 
superconducting onset temperature, and 

cooling means for cooling said composition to a superconducting state at a temperature 
greater than or equal to 26°K. 

CLAIM 37 (Original) The combination of claim 36, where said at least one other 
element is an alkaline earth element. 

CLAIM 38 (Previously Presented) The combination of claim 36, where said at least one 
other element is an element which results in Cu^ions in said composition. 

CLAIM 39 (Previously Presented) The combination of claim 36, where said at least one 
other element is an element chosen to result in the presence of both Cu 2+ and Cu^ ions 
in said composition. 

CLAIM 40 (Previously Presented) An apparatus comprising a superconductor exhibiting 
a superconducting onset at an onset temperature greater than or equal to 26°K, said 
superconductor being comprised of at least four elements, none of which is itself 
superconducting at a temperature greater than or equal to 26°K, means for maintaining 
said superconductor at an operating temperature in excess of said onset temperature to 
maintain said superconductor in a superconducting state and means for passing current 
through said superconductor while in said superconducting state. 

CLAIM 41 (Previously Presented) The apparatus of claim 40, where said elements 
include a transition metal and oxygen. 

CLAIM 42 (Previously Presented) A apparatus having a superconducting onset 
temperature greater than or equal to 26°K, said superconductor being a doped 



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transition metal oxide, where said transition metal is itself non-superconducting and 
means for passing a superconducting electric current through said composition. 

CLAIM 43 (Previously Presented) The apparatus of claim 42, where said doped 
transition metal oxide is multivalent in said superconductor. 

CLAIM 44 (Previously Presented) The apparatus of claim 42, further including an 
element which creates a mixed valent state of said transition metal. 

CLAIM 45 (Previously Presented) The apparatus of claim 43, where said transition 
metal is Cu. 

CLAIM 46 (Previously Presented) An apparatus having a superconductor having a 
superconducting onset temperature greater than or equal to 26°K, said superconductor 
being an oxide having multivalent oxidation states and including a metal, said oxide 
having a crystalline structure which is oxygen deficient a means for passing a 
superconducting electric current through said superconductor. 

CLAIM 47 (Previously Presented) The apparatus of claim 46, where said transition 
metal is Cu. 

CLAIM 48 (Previously Presented) A superconductive apparatus comprising a 
superconductive composition comprised of a transition metal oxide having substitutions 
therein, the amount of said substitutions being sufficient to produce sufficient 
electron-phonon interactions in said composition that said composition exhibits a 
superconducting onset at temperatures greater than or equal to 26°K, and a source of 
current for passing a superconducting electric current through said superconductor. 

CLAIM 49 (Previously Presented) The superconductive apparatus of claim 48, where 
said transition metal oxide is multivalent in said composition. 



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CLAIM 50 (Previously Presented) The superconductive apparatus of claim 48, where 
said transition metal is Cu. 

CLAIM 51 (Previously Presented) The superconductive apparatus of claim 48, where 
said substitutions include an alkaline earth element. 

CLAIM 52 (Previously Presented) The superconductive apparatus of claim 48, where 
said substitutions include a rare earth or rare earth-like element. 

CLAIM 53 (Previously Presented) A superconductive apparatus comprised of a copper 
oxide having a layer-like crystalline structure and at least one additional element 
substituted in said crystalline structure, said structure being oxygen deficient and 
exhibiting a superconducting onset temperature greater than or equal to 26°K. 

CLAIM 54 (Original) The superconductor of claim 53, where said additional element 
creates a mixed valent state of said copper oxide in said superconductor. 

CLAIM 55 (Previously Presented) A combination, comprising: 

a transition metal oxide having an superconducting onset temperature greater than 
about 26°K and having an oxygen deficiency, said transition metal being 
non-superconducting at said superconducting onset temperature and said oxide having 
multivalent states, 

means for passing an electrical superconducting current through said oxide while said 
oxide is at a temperature greater than or equal to 26°K, and 

cooling means for cooling said oxide in a superconducting state at a temperature 
greater than or equal to 26°K. 

CLAIM 56 (Original) The combination of claim 55, where said transition metal is Cu. 



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CLAIM 57 (Previously Presented) A combination including; 

a superconducting oxide having a superconducting onset temperature greater than or 
equal to 26°K and containing at least 3 elements which are non-superconducting at 
said onset temperature, 

means for passing a superconducting current through said oxide while said oxide is 
maintained at a temperature greater than or equal to 26°K, and 

means for maintaining said oxide in a superconducting state at a temperature greater 
than or equal to 26°K and less than said superconductive onset temperature. 

CLAIM 58 (Previously Presented) A combination, comprised of: 

a copper oxide superconductor having a superconductor onset temperature greater 
than about 26°K including an element which results in a mixed valent state in said 
oxide, said oxide being crystalline and having a layer-like structure, 

means for passing a superconducting current through said copper oxide while it is 
maintained at a temperature greater than or equal to 26°K and less than said 
superconducting onset temperature, and 

means for cooling said copper oxide to a superconductive state at a temperature 
greater than or equal to 26°K and less than said superconducting onset temperature. 

CLAIM 59 (Previously Presented) A combination, comprised of: 

a ceramic-like material having an onset of superconductivity at an onset temperature 
greater than or equal to 26°K, 



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means for passing a superconducting electrical current through said ceramic-like 
material while said material is maintained at a temperature greater than or equal to 
26°K and less than said onset temperature, and 

means for cooling said superconducting ceramic-like material to a superconductive 
state at a temperature greater than or equal to 26°K and less than said onset 
temperature, said material being superconductive at temperatures below said onset 
temperature and a ceramic at temperatures above said onset temperature. 

CLAIM 60 (Previously Presented) An apparatus comprised of a transition metal oxide, 
and at least one additional element, said superconductor having a distorted crystalline 
structure characterized by an oxygen deficiency and exhibiting a superconducting onset 
temperature greater than or equal to of 26°K, a source of current for passing a 
superconducting electric current in said transition metal oxide, and a cooling apparatus 
for maintaining said transition metal oxide below said onset temperature at a 
temperature greater than or equal to 26°K. 

CLAIM 61 (Previously Presented) The apparatus of claim 60, where said transition 
metal is Cu. 

CLAIM 62 (Previously Presented) An apparatus comprised of a transition metal oxide 
and at least one additional element, said superconductor having a distorted crystalline 
structure characterized by an oxygen excess and exhibiting a superconducting onset 
temperature greater than or equal to 26°K, a source of current for passing a 
superconducting electric current in said transition metal oxide, and a cooling apparatus 
for maintaining said transition metal oxide below said onset temperature and at a 
temperature greater than or equal to of 26°K. 

CLAIM 63 (Previously Presented) The apparatus of claim 62, where said transition 
metal is Cu. 



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CLAIM 64 (Previously Presented) A combination, comprising: 

a mixed copper oxide composition having enhanced polaron formation, said 
composition including an element causing said copper to have a mixed valent state in 
said composition, said composition further having a distorted octahedral oxygen 
environment leading to a T c greater than or equal to 26°K, 

means for providing a superconducting current through said composition at 
temperatures greater than or equal to 26°K and less than said T c , and 

cooling means for cooling said composition to a temperature greater than or equal to 
26°K and less than said T c . 

CLAIM 65 (Previously Presented) An apparatus comprising a composition exhibiting 
superconductivity at temperatures greater than or equal to 26°K, said composition 
being a ceramic-like material in the RE-AE-TM-0 system, where RE is a rare earth or 
near rare earth element, AE is an alkaline earth element, TM is a multivalent transition 
metal element having at least two valence states in said composition, and O is oxygen, 
the ratio of the amounts of said transition metal in said two valence states being 
determined by the ratio RE : AE, a source of current for passing a superconducting 
electric current in said transition metal oxide, and a cooling apparatus for maintaining 
said transition metal oxide below said onset temperature and at a temperature greater 
than or equal to 26°K. 

CLAIM 66 (Previously Presented) An apparatus comprising a superconductive 
composition having a transition temperature greater than or equal to 26°K, the 
composition including a multivalent transition metal oxide and at least one additional 
element, said composition having a distorted orthorhombic crystalline structure, a 
source of current for passing a superconducting electric current in said transition metal 
oxide, and a cooling apparatus for maintaining said transition metal oxide below said 
onset temperature and at a temperature greater than or equal to 26°K. 



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CLAIM 67 (Previously Presented) The apparatus of claim 66, where said transition 
metal oxide is a mixed copper oxide. 

CLAIM 68 (Previously Presented) The apparatus of claim 67, where said one additional 
element is an alkaline earth element. 

CLAIM 69 (Previously Presented) A superconductive combination, comprising: 

a superconducting composition exhibiting a superconducting transition temperature 
greater than or equal to 26°K, said composition being a transition metal oxide having a 
distorted orthorhombic crystalline structure, and 

means for passing a superconducting electrical current through said composition while 
said composition is at a temperature greater than or equal to 26°K and less than said 
superconducting transition temperature. 

CLAIM 70 (Original) The combination of claim 69, where said transition metal oxide is a 
mixed copper oxide. 

CLAIM 71 (Original) The combination of claim 70, where said mixed copper oxide 
includes an alkaline earth element. 

CLAIM 72 (Original) The combination of claim 71, where said mixed copper oxide 
further includes a rare earth or rare earth-like element. 

CLAIM 73 (Currently Amended) [[A method for making a superconductor having]] An 
apparatus comprising a composition of matter comprising a superconducting onset 
temperature greater than or equal to 26°K, said composition of matter being made bv a 
method including the steps of: 



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preparing powders of oxygen-containing compounds of a rare earth or rare earth-like 
element, an alkaline earth element, and copper, 

mixing said compounds and firing said mixture to create a mixed copper oxide 
composition including said alkaline earth element and said rare earth or rare earth-like 
element, and 

annealing said mixed copper oxide composition at an elevated temperature less than 
about 950°C in an atmosphere including oxygen to produce a superconducting 
composition having a mixed copper oxide phase exhibiting a superconducting onset 
temperature greater than or equal to 26°K, said superconducting composition having a 
layer-like crystalline structure after said annealing step. 

CLAIM 74 (Original) The method of claim 73, where the amount of oxygen incorporated 
into said composition is adjusted by said annealing step, the amount of oxygen therein 
affecting the critical temperature T c of the superconducting composition. 

CLAIM 75 (Previously Presented) A method for making a superconductor having a 
superconducting onset temperature greater than or equal to 26°K, said superconductor 
being comprised of a rare earth or rare earth-like element (RE), an alkaline earth 
element (AE), copper (CU), and oxygen (O) and having the general formula 
RE-AE-CU-O, said method including the steps of combining said rare earth or rare 
earth-like element, said alkaline earth element and said copper in the presence of 
oxygen to produce a mixed copper oxide including said rare earth or rare earth-like 
element and said alkaline earth element therein, and 

heating said mixed copper oxide to produce a superconductor having a crystalline 
layer-like structure and exhibiting a superconducting onset temperature greater than or 
equal to 26°K the critical transition temperature of said superconductor being 
dependent on the amount of said alkaline earth element therein. 



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CLAIM 76 (Original) The method of claim 75, where said heating step is done in an 
atmosphere including oxygen. 

CLAIM 77 (Previously Presented) A combination, comprising: 

a mixed copper oxide composition including an alkaline earth element (AE) and a rare 
earth or rare earth-like element (RE), said composition having a layer-like crystalline 
structure and multi-valent oxidation states, said composition exhibiting a substantially 
zero resistance to the flow of electrical current therethrough when cooled to a 
superconducting state at a temperature greater than or equal to 26°K, said mixed 
copper oxide having a superconducting onset temperature greater than or equal to 
26°K, and 

electrical means for passing an electrical superconducting current through said 
composition when said composition exhibits substantially zero resistance at a 
temperature greater than or equal to 26°K and less than said onset temperature. 

CLAIM 78 (Original) The combination of claim 77, where the ratio (AE.RE) : Cu is 
substantially 1:1. 

CLAIM 79 (Original) The combination of claim 77, where the ratio (AE.RE) : Cu is 
substantially 1:1. 

CLAIM 80 (Original) The combination of claim 77, wherein said crystalline structure is 
perovskite-like. 

CLAIM 81 (Original) The combination of claim 77, where said mixed copper oxide 
composition has a non-stoichiometric amount of oxygen therein. 

CLAIM 82 (Currently Amended) [[A method for making a superconductor having]] An 
apparatus comprising a superconductor comprising a superconducting onset 



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temperature greater than or equal to 26°K, said superconductor being comprised of a 
rare earth or rare earth-like element (RE), an alkaline earth element (AE), a transition 
metal element (TM), and Oxygen (O) and having the general formula RE-AE-TM-O, 
said superconductor being made bv a method including the steps of combining said 
rare earth or rare earth-like element, said alkaline earth element and said transition 
metal element in the presence of oxygen to produce a mixed transition metal oxide 
including said rare earth or rare earth-like element and said alkaline earth element 
therein, and 

heating said mixed transition metal oxide to produce superconductor having a 
crystalline layer-like structure and exhibiting a superconducting onset temperature 
greater than or equal to 26°K, said superconductor having a non-stoichiometric amount 
of oxygen therein. 

CLAIM 83 (Previously Presented) The method of claim 82, where said transition metal 
is copper. 

CLAIM 84 (Previously Presented) A superconducting combination, comprising: 

a mixed transition metal oxide composition containing a non-stoichiometric amount of 
oxygen therein, a transition metal and at least one additional element, said composition 
having substantially zero resistance to the flow of electricity therethrough when cooled 
to a superconducting state at a temperature greater than or equal to 26°K, said mixed 
transition metal oxide has a superconducting onset temperature greater than or equal 
to 26°K, and 

electrical means for passing an electrical superconducting current through said 
composition when said composition is in said superconducting state at a temperature 
greater than or equal to 26°K, and less than said superconducting onset temperature. 

CLAIM 85 (Original) The combination of claim 84, where said transition metal is copper. 



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CLAIM 86 (Previously Presented) An apparatus comprising: 

a composition including a transition metal, a rare earth or rare earth-like element, an 
alkaline earth element, and oxygen, where said composition is a mixed transition metal 
oxide having a non-stoichiometric amount of oxygen therein and exhibiting a 
superconducting onset temperature greater than or equal to 26°K, 

means for maintaining said composition to said superconducting state at a temperature 
greater than or equal to 26°K and less than said superconducting onset temperature, 
and 

means for passing an electrical current through said composition while said composition 
is in said superconducting state. 

CLAIM 87 (Previously Presented) The apparatus of claim 86, where said transition 
metal is copper. 

CLAIM 88 (Previously Presented) An apparatus comprising: 

a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K, 

a cooler for cooling said composition to a temperature greater than or equal to 26°K at 
which temperature said composition exhibits said superconductive state, and 

a current source for passing an electrical current through said composition while said 
composition is in said superconductive state. 



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CLAIM 89 (Previously Presented) The apparatus of claim 88, where said composition is 
comprised of a metal oxide. 

CLAIM 90 (Previously Presented) The apparatus of claim 88, where said composition is 
comprised of a transition metal oxide. 

CLAIM 91 (Previously Presented) A combination, comprising: 

a composition exhibiting the onset of a DC substantially zero resistance state at an 
onset temperature in excess of 30°K, and 

means for passing an electrical current through said composition while it is in said 
substantially zero resistance state. 

CLAIM 92 (Previously Presented) The combination of claim 91 , where said composition 
is a copper oxide. 

CLAIM 93 (Previously Presented) An apparatus, comprising: 

a mixed copper oxide material exhibiting an onset of superconductivity at an onset 
temperature greater than or equal to 26°K, and 

means for producing an electrical current through said copper oxide material while it is 
in a superconducting state at a temperature greater than or equal to 26°K. 

CLAIM 94 (Previously Presented) The apparatus of claim 93, where said copper oxide 
material exhibits a layer-like crystalline structure. 

CLAIM 95 (Previously Presented) The apparatus of claim 93, where said copper oxide 
material exhibits a mixed valence state. 



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CLAIM 96 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition comprising a copper-oxide compound having a layer-type 
perovskite-like crystal structure, the composition having a superconductor transition 
temperature T c of greater than or equal to 26°K; 

(b) means for maintaining the superconductor element at a temperature greater than or 
equal to 26°K and below the superconductor transition temperature T c of the 
superconductive composition; and 

(c) means for causing an electric current to flow in the superconductor element. 

CLAIM 97 (Previously Presented) The superconductive apparatus according to claim 96 
in which the copper-oxide compound of the superconductive composition includes at 
least one rare-earth or rare-earth-like element and at least one alkaline-earth element. 

CLAIM 98 (Previously Presented) The superconductive apparatus according to claim 97 
in which the rare-earth or rare-earth-like element is lanthanum. 

CLAIM 99 (Previously Presented) The superconductive apparatus according to claim 97 
in which the alkaline-earth element is barium. 

CLAIM 100 (Previously Presented) The superconductive apparatus according to claim 
96 in which the copper-oxide compound of the superconductive composition includes 
mixed valent copper ions. 



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CLAIM 101 (Previously Presented) The superconductive apparatus according to claim 

100 in which the copper-oxide compound includes at least one element in a 
nonstoichiometric atomic proportion. 

CLAIM 102 (Previously Presented) The superconductive apparatus according to claim 

101 in which oxygen is present in the copper-oxide compound in a nonstoichiometric 
atomic proportion. 

CLAIM 103 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound having 
a layer-type perovskite-like crystal structure, the copper-oxide compound including at 
least one rare-earth or rare-earth-like element and at least one alkaline-earth element, 
the composition having a superconductive/resistive transition defining a 
superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T e and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature T q=0 , the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) means for maintaining the superconductor element at a temperature below the 
effectively-zero-bulk-resistivity intercept temperature T q=0 of the superconductive 
composition; and 

(c) means for causing an electric current to flow in the superconductor element. 

CLAIM 104 (Previously Presented) The superconductive apparatus according to claim 
103 in which the rare-earth or rare-earth-like element is lanthanum. 



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CLAIM 105 (Previously Presented) The superconductive apparatus according to claim 
103 in which the alkaline-earth element is barium. 

CLAIM 106 (Previously Presented) The superconductive apparatus according to claim 
103 in which the copper-oxide compound of the superconductive composition includes 
mixed valent copper ions. 

CLAIM 107 (Previously Presented) The superconductive apparatus according to claim 

106 in which the copper-oxide compound includes at least one element in a 
nonstoichiometric atomic proportion. 

CLAIM 108 (Previously Presented) The superconductive apparatus according to claim 

107 in which oxygen is present in the copper-oxide compound in a nonstoichiometric 
atomic proportion. 

CLAIM 109 (Previously Presented) A superconductive apparatus comprising a 
composition having a transition temperature greater than or equal to 26°K, the 
composition including a rare earth or alkaline earth element, a transition metal element 
capable of exhibiting multivalent states and oxygen, including at least one phase that 
exhibits superconductivity at temperature greater than or equal to 26°K, means for 
maintaining said composition at said temperature to exhibit said superconductivity and 
means for passing an electrical superconducting current through said composition while 
exhibiting said superconductivity. 

CLAIM 110 (Previously Presented) The combination of claim 15, where said additional 
element is rare earth or alkaline earth element. 

CLAIM 1 1 1 (Previously Presented) A device comprising a superconducting transition 
metal oxide having a superconductive onset temperature greater than or equal to 26°K, 
said superconducting transition metal oxide being at a temperature less than said 



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superconducting onset temperature and having a superconducting current flowing 
therein. 

CLAIM 112 (Previously Presented) A device comprising a superconducting copper 
oxide having a superconductive onset temperature greater than or equal to 26°K, said 
superconducting copper oxide being at a temperature less than said superconducting 
onset temperature and having a superconducting current flowing therein. 

CLAIM 113 (Previously Presented) A device comprising a superconducting oxide 
composition having a superconductive onset temperature greater than or equal to 26°K, 
said superconducting copper oxide being at a temperature less than said 
superconducting onset temperature and having a superconducting current flowing 
therein, said composition comprising at least one each of rare earth, an alkaline earth, 
and copper. 

CLAIM 114 (Previously Presented) A device comprising a superconducting oxide 
composition having a superconductive onset temperature greater than or equal to 26°K, 
said superconducting copper oxide being at a temperature less than said 
superconducting onset temperature and having a superconducting current flowing 
therein, said composition comprising at least one each of a group 1MB element, an 
alkaline earth, and copper. 

CLAIM 115 (Previously Presented) A device comprising a transition metal oxide having 
a T c greater than or equal to 26°K carrying a superconducting current said transition 
metal oxide is maintained at a temperature less than said T c . 

CLAIM 116 (Previously Presented) An apparatus comprising a transition metal oxide 
having a T c greater than or equal to 26°K carrying a superconducting current said 
transition metal oxide is maintained at a temperature less than said T c . 



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CLAIM 117 (Previously Presented) A structure comprising a transition metal oxide 
having a T c greater than or equal to 26°K carrying a superconducting current. 

CLAIM 118 (Previously Presented) An apparatus comprising a transition metal oxide 
having a T c greater than or equal to 26°K carrying a superconducting current. 

CLAIM 119 (Previously Presented) A device comprising a copper oxide having a T c 
greater than or equal to 26°K carrying a superconducting current said copper oxide is 
maintained at a temperature less than said T c . 

CLAIM 120 (Previously Presented) An apparatus comprising a copper oxide having a T c 
greater than or equal to 26°K carrying a superconducting current said copper oxide is 
maintained at a temperature less than said T c . 

CLAIM 121 (Previously Presented) A device comprising a copper oxide having a T c 
greater than or equal to 26°K carrying a superconducting current. 

CLAIM 122 (Previously Presented) An apparatus comprising a copper oxide having a T c 
greater than or equal to 26°K carrying a superconducting current. 

CLAIM 123 (Previously Presented) A superconductive apparatus comprising: 

a composition of the formula BaxLaxsCusOv wherein x is from about 0.75 to about 1 and 
y is the oxygen deficiency resulting from annealing said composition at temperatures 
from about 540°C to about 950°C and for times of about 15 minutes to about 12 hours, 
said composition having a metal oxide phase which exhibits a superconducting state at 
a critical temperature greater than or equal to 26°K; 

a means for maintaining the temperature of said composition at a temperature less than 
said critical temperature to induce said superconducting state in said metal oxide 
phase; and 



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a means for passing an electrical current through said composition while said metal 
oxide phase is in said superconducting state. 

CLAIM 124 (Previously Presented) A device comprising a composition of matter having 
a To greater than or equal to 26°K carrying a superconducting current, said composition 
comprising at least one each of a II IB element, an alkaline earth, and copper oxide said 
device is maintained at a temperature less than said T c . 

CLAIM 125 (Previously Presented) An apparatus comprising a composition of matter 
having a T c greater than or equal to 26°K carrying a superconducting current, said 
composition comprising at least one each of a rare earth, an alkaline earth, and copper 
oxide. 

CLAIM 126 (Previously Presented) A device comprising a composition of matter having 
a T c greater than or equal to 26°K carrying a superconducting current, said composition 
comprising at least one each of a rare earth, and copper oxide. 

CLAIM 127 (Previously Presented) A device comprising a composition of matter having 
a T c greater than or equal to 26°K carrying a superconducting current, said composition 
comprising at least one each of a II IB element, and copper oxide. 

CLAIM 128 (Previously Presented) A transition metal oxide device comprising a T c 
greater than or equal to 26°K and carrying a superconducting current. 

CLAIM 129 (Previously Presented) A copper oxide device comprising a T c greater than 
or equal to 26°K and carrying a superconducting current. 

CLAIM 130 (Previously Presented) A superconductive apparatus comprising a 
composition having a transition temperature greater than or equal to 26°K, the 
composition including a rare earth or Group III B element, a transition metal element 



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capable of exhibiting multivalent states and oxygen, including at least one phase that 
exhibits superconductivity at temperature greater than or equal to 26°K, a means for 
maintaining said composition at said temperature to exhibit said superconductivity and 
means for passing an electrical superconducting current through said composition 
which exhibiting said superconductivity. 

CLAIM 131 (Previously Presented) The combination of claim 15, where said additional 
element is a rare earth or Group III B element. 

CLAIM 132 (Previously Presented) The combination of claim 12, where said 
composition includes a substantially perovskite superconducting phase. 

CLAIM 133 (Previously Presented) The superconducting apparatus of claim 27, where 
said substituted Cu-oxide includes a rare earth or Group NIB element. 

CLAIM 134 (Previously Presented) The combination of claim 71, where said mixed 
copper oxide further includes a rare earth or Group III B element. 

CLAIM 135 (Previously Presented) A combination, comprising: 

a mixed copper oxide composition including an alkaline earth element 
(AE) and a rare earth or Group III B element (RE), said composition 
having a substantially layered crystalline structure and multi-valent 
oxidation states, said composition exhibiting a substantially zero 
resistance to the flow of electrical current therethrough when in a 
superconducting state at a temperature greater than or equal to 26°K, 
said mixed copper oxide having a superconducting onset temperature 
greater than or equal to 26°K and, 

electrical means for passing an electrical superconducting current through 
said composition when said composition exhibits substantially zero 



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resistance at a temperature greater than or equal to 26°K and less than 
said onset temperature. 

CLAIM 136 (Previously Presented) The combination of claim 77, where said crystalline 
structure is substantially perovskite. 

CLAIM 137 (Previously Presented) An apparatus comprising: 

a composition including a transition metal, a rare earth or Group III B element, an 
alkaline earth element, and oxygen, where said composition is a mixed transition metal 
oxide having a non-stoichimetric amount of oxygen therein and exhibiting a 
superconducting state at a temperature greater than or equal to 26°K, 

means for maintaining said composition in said superconducting state at a temperature 
greater than or equal to 26°K, and less than said superconducting onset temperature, 
and 

means for passing an electrical current through said composition while said composition 
is in said superconducting state. 

CLAIM 138 (Previously Presented) The apparatus of claim 93, where said copper oxide 
material exhibits a substantially layered crystalline structure. 

CLAIM 139 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a substantially layered perovskite crystal structure, the 



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composition having a superconductor transition temperature T c of greater 
than or equal to 26°K; 

(b) means for maintaining the superconductor element at a temperature 
greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) means for causing an electric current to flow in the superconductor 
element. 

CLAIM 140 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a substantially layered perovskite crystal structure, the 
copper-oxide compound including at least one rare-earth or Group III B 
element and at least one alkaline-earth element, the composition having a 
superconductive/resistive transition defining a 

superconductive/resistive-transition temperature range between an upper 
limit defined by a transition-onset temperature T c and a lower limit defined 
by an effectively-zero-bulk-resistivity intercept temperature J^ 0 , the 
transition-onset temperature T c being greater than or equal to 26°K; 

(b) means for maintaining the superconductor element at a temperature 
below the effective ly-zero-bulk- resistivity intercept temperature Tn= 0 of the 
superconductive composition; and 

(c) means for causing an electric current to flow in the superconductor 
element. 



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CLAIM 141 (Previously Presented) An apparatus comprising a transition metal oxide 
having a phase therein which exhibits a superconducting state at a critical temperature 
greater than or equal to 26°K, 

a temperature controller maintaining the temperature of said material at a temperature 
less than said critical temperature to produce said superconducting state in said phase, 
and 

a current source passing an electrical supercurrent through said transition metal oxide 
while it is in said superconducting state. 

CLAIM 142 (Previously Presented) The apparatus of claim 141 , where said transition 
metal oxide is comprised of a transition metal capable of exhibiting multivalent states. 

CLAIM 143 (Previously Presented) The apparatus of claim 141 , where said transition 
metal oxide is comprised of a Cu oxide. 

CLAIM 144 (Previously Presented) An apparatus comprising: 

a composition including a transition metal, a rare earth or rare earth-like 
element, an alkaline earth element, and oxygen, where said composition 
is a mixed transition metal oxide having a non-stoichiometric amount of 
oxygen therein and exhibiting a superconducting state at a temperature 
greater than or equal to 26°K, 

a temperature controller maintaining said composition in said 
superconducting state at a temperature greater than or equal to 26°K, and 

a current source passing an electrical current through said composition 
while said composition is in said superconducting state. 



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CLAIM 145 (Previously Presented) The apparatus of claim 144, where said transition 
metal is copper. 

CLAIM 146 (Previously Presented) An apparatus: 

a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K, 

a temperature controller maintaining said composition at a temperature greater than or 
equal to 26°K at which temperature said composition exhibits said superconductive 
state, and 

a current source passing an electrical current through said composition while said 
composition is in said superconductive state. 

CLAIM 147 (Previously Presented) The apparatus of claim 146, where said composition 
is comprised of a metal oxide. 

CLAIM 148 (Previously Presented) The apparatus of claim 146, where said composition 
is comprised of a transition metal oxide. 

CLAIM 149 (Previously Presented) A superconductive apparatus for causing electric 
current flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a layer-type perovskite-like crystal structure, the 
composition having a superconductor transition temperature T c of greater 
than or equal to 26°K; 



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(b) a temperature controller maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor 
transition temperature T c of the superconductive composition; and 

(c) causing an electric current to flow in the superconductor element. 

CLAIM 1 50 (Previously Presented) The superconductive apparatus according to claim 

1 49 in which the copper-oxide compound of the superconductive composition includes 
at least one rare-earth or rare-earth-like element and at least one alkaline-earth 
element. 

CLAIM 151 (Previously Presented) The superconductive apparatus according to claim 

150 in which the rare-earth or rare-earth-like element is lanthanum. 

CLAIM 152 (Previously Presented) The superconductive apparatus according to claim 
1 50 in which the alkaline-earth element is barium. 

CLAIM 153 (Previously Presented) The superconductive apparatus according to claim 
149 in which the copper-oxide compound of the superconductive composition includes 
mixed valent copper ions. 

CLAIM 154 (Previously Presented) The superconductive apparatus according to claim 

1 53 in which the copper-oxide compound includes at least one element in a 
nonstoichiometric atomic proportion. 

CLAIM 155 (Previously Presented) The superconductive apparatus according to claim 

1 54 in which oxygen is present in the copper-oxide compound in a nonstoichiometric 
atomic proportion. 

CLAIM 156 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 



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(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a layer-type perovskite-like crystal structure, the 
copper-oxide compound including at least one rare-earth or rare-earth-like 
element and at least one alkaline-earth element, the composition having a 
superconductive/resistive-transition defining a 

superconductive/resistive-transition temperature range between an upper 
limit defined by a transition-onset temperature T c and a lower limit defined 
by an effectively-zero-bulk-resistivity intercept temperature T p=0 , the 
transition-onset temperature T e being greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk- resistivity intercept 
temperature T p=0 of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 157 (Previously Presented) The superconductive apparatus according to claim 
156 in which the rare-earth or rare-earth-like element is lanthanum. 

CLAIM 158 (Previously Presented) The superconductive apparatus according to claim 
156 in which the alkaline-earth element is barium. 

CLAIM 159 (Previously Presented) The superconductive apparatus according to claim 
156 in which the copper-oxide compound of the superconductive composition includes 
mixed valent copper ions. 



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CLAIM 160 (Previously Presented) The superconductive apparatus according to claim 

159 in which the copper-oxide compound includes at least one element in a 
nonstoichiometric atomic proportion. 

CLAIM 161 (Previously Presented) The superconductive apparatus according to claim 

160 in which oxygen is present in the copper-oxide compound in a nonstoichiometric 
atomic proportion. 

CLAIM 162 (Previously Presented) An apparatus including copper oxide having a 
phase therein which exhibits a superconducting state at a critical temperature greater 
than or equal to 26°K; 

a temperature controller maintaining the temperature of said material at a temperature 
less than said critical temperature to produce said superconducting state in said phase; 

a current source passing an electrical supercurrent through said copper oxide while it is 
in said superconducting state; 

said copper oxide includes at least one element selected from the group consisting of a 
Group II A element, a rare earth element and a Group III B element. 

CLAIM 163 (Previously Presented) An apparatus comprising: 

a composition including copper, oxygen and any element selected from the group 
consisting of a Group II A element, a rare earth element and a Group III B element, 
where said composition is a mixed copper oxide having a non-stoichiometric amount of 
oxygen therein and exhibiting a superconducting state at a temperature greater than or 
equal to 26°K; 

a temperature controller maintaining said composition in said superconducting state at 
a temperature greater than or equal to 26°K; and 



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a current source passing an electrical current through said composition while said 
composition is in said superconducting state. 

CLAIM 164 (Previously Presented) An apparatus comprising: 

a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K; 

a temperature controller maintaining said composition at a temperature greater than or 
equal to 26°K at which temperature said composition exhibits said superconductive 
state; 

a current source passing an electrical current through said composition while said 
composition is in said superconductive state; and 

said composition including a copper oxide and an element selected from the group 
consisting of Group II A element, a rare earth element and a Group III B element. 

CLAIM 165 (Previously Presented) An apparatus for causing electric-current flow in a 
superconductive state at a temperature greater than or equal to 26°K, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a layer-type perovskite-like crystal structure, the 
composition having a superconductive transition temperature T c of greater 
than or equal to 26°K, said superconductive composition includes at least 
one element selected from the group consisting of a Group II A element, a 
rare earth element; and a Group III B element; 



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(b) a temperature controller maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor 
transition temperature T c of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 166 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a layer-type perovskite-like crystal structure, the 
copper-oxide compound including at least one element selected from the 
group consisting of a Group II A element, a rare earth element and a 
Group III B element, the composition having a superconductive/resistive 
transition defining a superconductive/resistive-transition temperature 
range between an upper limit defined by a transition-onset temperature T c 
and a lower limit defined by an effectively-zero-bulk-resistivity intercept 
temperature T p=0 , the transition-onset temperature T c being greater than or 
equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk- resistivity intercept 
temperature Tp= 0 of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 167 (Previously Presented) An apparatus comprising: 



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a copper oxide having a phase therein which exhibits a superconducting state at a 
critical temperature greater than or equal to 26°K; 

a temperature controller maintaining the temperature of said material at a temperature 
less than said critical temperature to produce said superconducting state in said phase; 

a current source passing an electrical supercurrent through said copper oxide while it is 
in said superconducting state; 

said copper oxide includes an element selected from the group consisting of a Group II 
A element and at least one element selected from the group consisting of a rare earth 
element and a Group III B element. 

CLAIM 168 (Previously Presented) An apparatus comprising: 

a composition including copper, oxygen and an element selected from the group 
consisting of at least one Group II A element and at least one element selected from 
the group consisting of a rare earth element and a Group III B element, where said 
composition is a mixed copper oxide having a non-stoichiometric amount of oxygen 
therein and exhibiting a superconducting state at a temperature greater than or equal to 
26°K; 

a temperature controller maintaining said composition in said superconducting state at 
a temperature greater than or equal to 26°K; and 

a current source passing an electrical current through said composition while said 
composition is in said superconducting state. 

CLAIM 169 (Previously Presented) An apparatus comprising: 



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a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K; 

a temperature controller maintaining said composition at a temperature greater than or 
equal to 26°K at which temperature said composition exhibits said superconductive 
state; 

a current source passing an electrical current through said composition while said 
composition is in said superconductive state; and 

said composition including a copper oxide and at least one element selected from the 
group consisting of Group II A and at least one element selected from the group 
consisting of a rare earth element and a Group 1MB element. 

CLAIM 1 70 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a layer-type perovskite-like crystal structure, the 
composition having a superconductive transition temperature T c of greater 
than or equal to 26°K, said superconductive composition includes at least 
one element selected from the group consisting of a Group II A element 
and at least one element selected from the group consisting of a rare 
earth element and a Group III B element; 

(b) a temperature controller maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor 
transition temperature T c of the superconductive composition; and 



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(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 171 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a layer-type perovskite-like crystal structure, the 
copper-oxide compound including at least one element selected from the 
group consisting of a Group II A element and at least one element 
selected from the group consisting of a rare earth element and a Group III 
B element, the composition having a superconductive/resistive transition 
defining a superconductive-resistive-transition temperature range between 
an upper limit defined by a transition-onset temperature T c and a lower 
limit defined by an effectively-zero-bulk-resistivity intercept temperature 
Tp=o, the transition-onset temperature T c being greater than or equal to 
26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk- resistivity intercept 
temperature Tp= 0 of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 172 (Previously Presented) An apparatus comprising: 

a transition metal oxide having a phase therein which exhibits a superconducting state 
at a critical temperature greater than or equal to 26°K; 



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a temperature controller maintaining the temperature of said material at a temperature 
less than said critical temperature to produce said superconducting state in said phase; 

a current source passing an electrical supercurrent through said copper oxide while it is 
in said superconducting state; 

said transitional metal oxide includes at least one element selected from the group 
consisting of a Group II A element and at least one element selected from the group 
consisting of a rare earth element and a Group 1MB element. 

CLAIM 173 (Previously Presented) An apparatus comprising: 

a composition including a transition metal, oxygen and an element selected from the 
group consisting of a Group II A element and at least one element selected from the 
group consisting of a rare earth element and a Group III B element, where said 
composition is a mixed transitional metal oxide formed from said transition metal and 
said oxygen, said mixed transition metal oxide having a non-stoichiometric amount of 
oxygen therein and exhibiting a superconducting state at a temperature greater than or 
equal to 26°K; 

a temperature controller maintaining said composition in said superconducting state at 
a temperature greater than or equal to 26°K; and 

a current source passing an electrical current through said composition while said 
composition is in said superconducting state. 

CLAIM 174 (Previously Presented) An apparatus: 

forming a composition exhibiting a superconductive state at a temperature greater than 
or equal to 26°K; 



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a temperature controller maintaining said composition at a temperature greater than or 
equal to 26°K at which temperature said composition exhibits said superconductive 
state; 

a current source passing an electrical current through said composition while said 
composition is in said superconductive state; and 

said composition including a transitional metal oxide and at least one element selected 
from the group consisting of Group II A element and at least one element selected from 
the group consisting of a rare earth element and a Group III B element. 

CLAIM 175 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal oxide 
compound having a layer-type perovskite-like crystal structure, the composition having 
a superconductive transition temperature T c of greater than or equal to 26°K, said 
superconductive composition includes an element selected from the group consisting of 
a Group II A element and at least one element selected from the group consisting of a 
rare earth element and a Group III B element; 

(b) a temperature controller maintaining the superconductor element at a temperature 
greater than or equal to 26°K and below the superconductor transition T c of the 
superconductive composition; and 

(c) a current source causing an electric current to flow in the superconductor element. 

CLAIM 176 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 



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(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal-oxide 
compound having a layer-type perovskite-like crystal structure, the transition 
metal-oxide compound including at least one element selected from the group 
consisting of a Group II A element and at least one element selected from the group 
consisting of a rare earth element and a Group III B element, the composition having a 
superconductive/resistive transition defining a superconductive/resistive-transition 
temperature range between an upper limit defined by a transition-onset temperature T c 
and a lower limit defined by an effectively-zero-bulk-resistivity intercept temperature 
Tp= 0) the transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a temperature 
below the effectively-zero-bulk-resistivity intercept temperature T p=0 of the 
superconductive composition; and 

(c) a current source causing an electric current to flow in the superconductor element. 

CLAIM 177 (Previously Presented) An apparatus comprising: 

a copper oxide having a phase therein which exhibits a superconducting state at a 
critical temperature greater than or equal to 26°K; 

a temperature controller maintaining the temperature of said material at a temperature 
less than said critical temperature to produce said superconducting state in said phase; 

a current source passing an electrical supercurrent through said copper oxide while it is 
in said superconducting state; 

said copper oxide includes at least one Group II A element, and at least one element 
selected from the group consisting of a rare earth element and a Group III B element. 



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CLAIM 178 (Previously Presented) An apparatus comprising: 

a composition including copper, oxygen, a Group II A element and at least one element 
selected from the group consisting of a rare earth element and a Group 1MB element, 
where said composition is a mixed copper oxide having a non-stoichiometric amount of 
oxygen therein and exhibiting a superconducting state at a temperature greater than or 
equal to 26°K; 

a temperature controller maintaining said composition in said superconducting state at 
a temperature greater than or equal to 26°K; and 

a current source passing an electrical current through said composition while said 
composition is in said superconducting state. 

CLAIM 179 (Previously Presented) A structure comprising: 

a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K; 

a temperature controller maintaining said composition at a temperature greater than or 
equal to 26°K at which temperature said composition exhibits said superconductive 
state; 

a current source passing an electrical current through said composition while said 
composition is in said superconductive state; and 

said composition including a copper oxide, a Group II A element, at least one element 
selected from the group consisting of a rare earth element and a Group III B element. 



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CLAIM 1 80 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound having 
a layer-type perovskite-like crystal structure, the composition having a superconductive 
transition temperature T c of greater than or equal to 26°K, said superconductive 
composition includes a Group II A element, and at least one element selected from the 
group consisting of a rare earth element and a Group 1MB element; 

(b) a temperature controller maintaining the superconductor element at a temperature 
greater than or equal to 26°K and below the superconductor transition temperature T c 
of the superconductive composition; and 

(c) a current source causing an electric current to flow in the superconductor element. 

CLAIM 181 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound having 
a layer-type perovskite-like crystal structure, the copper-oxide compound including 
Group II A element, and at least one element selected from the group consisting of a 
rare earth element and a Group III B element, the composition having a 
superconductive-resistive transition defining a superconductive/resistive-transition 
temperature range between an upper limit defined by a transition-onset temperature T c 
and a lower limit defined by an effectively-zero-bulk-resistivity intercept temperature 
T p=0 , the transition-onset temperature T 0 being greater than or equal to 26°K; 



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(b) a temperature controller maintaining the superconductor element at a temperature 
below the effectively-zero-bulk-resistivity intercept temperature Tp= 0 of the 
superconductive composition; and 

(c) a current source causing an electric current to flow in the superconductor element. 

CLAIM 182 (Previously Presented) An apparatus comprising a composition having a 
transition temperature greater than or equal to 26°K, the composition including a rare 
earth or alkaline earth element, a transition metal element capable of exhibiting 
multivalent states and oxygen, including at least one phase that exhibits 
superconductivity at temperature greater than or equal to 26°K, a temperature controller 
maintaining said composition at said temperature to exhibit said superconductivity and 
a current source passing an electrical superconducting current through said 
composition with said phrase exhibiting said superconductivity. 

CLAIM 183 (Previously Presented) An apparatus comprising a superconducting 
transition metal oxide having a superconductive onset temperature greater than or 
equal to 26°K, a temperature controller maintaining said superconducting transition 
metal oxide at a temperature less than said superconducting onset temperature and a 
current source flowing a superconducting current therein. 

CLAIM 184 (Previously Presented) An apparatus comprising a superconducting copper 
oxide having a superconductive onset temperature greater than or equal to 26°K, a 
temperature controller maintaining said superconducting copper oxide at a temperature 
less than said superconducting onset temperature and a current source flowing a 
superconducting current in said superconducting oxide. 

CLAIM 185 (Previously Presented) An apparatus comprising a superconducting oxide 
composition having a superconductive onset temperature greater than or equal to 26°K, 
a temperature controller maintaining said superconducting copper oxide at a 
temperature less than said superconducting onset temperature and a current source 



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flowing a superconducting current therein, said composition comprising at least one 
each of rare earth, an alkaline earth, and copper. 

CLAIM 186 (Previously Presented) An apparatus comprising a superconducting oxide 
composition having a superconductive onset temperature greater than or equal to 26°K, 
a temperature controller maintaining said superconducting copper oxide at a 
temperature less than said superconducting onset temperature and a current source 
flowing a superconducting electrical current therein, said composition comprising at 
least one each of a Group NIB element, an alkaline earth, and copper. 

CLAIM 187 (Previously Presented) An apparatus comprising a superconducting 
electrical current in a transition metal oxide having a T c greater than or equal to 26°K 
and maintaining said transition metal oxide at a temperature less than said T c . 

CLAIM 188 (Previously Presented) An apparatus comprising a current source flowing a 
superconducting current in a copper oxide having a T c greater than or equal to 26°K 
and a temperature controller maintaining said copper oxide at a temperature less than 
said T c . 

CLAIM 189 (Previously Presented) An apparatus comprising: 

a composition of the formula Ba x La x -5, Cu50Y, wherein x is from about 0.75 to about 1 
and y is the oxygen deficiency resulting from annealing said composition at 
temperatures from about 540°C to about 950°C and for times of about 15 minutes to 
about 12 hours, said composition having a metal oxide phase which exhibits a 
superconducting state at a critical temperature greater than or equal to 26°K; 

a temperature controller maintaining the temperature of said composition at a 
temperature less than said critical temperature to induce said superconducting state in 
said metal oxide phase; and 



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a current source passing an electrical current through said composition while said metal 
oxide phase is in said superconducting state. 

CLAIM 190 (Previously Presented) An apparatus comprising a current source flowing a 
superconducting electrical current in a composition of matter having a T c greater than or 
equal to 26°K, said composition comprising at least one each of a Group III B element, 
an alkaline earth, and copper oxide and a temperature controller maintaining said 
composition of matter at a temperature less than T c . 

CLAIM 191 (Previously Presented) An apparatus comprising a current source flowing a 
superconducting electrical current in a composition of matter having a T c greater than or 
equal to 26°K, said composition comprising at least one each of a rare earth, alkaline 
earth, and copper oxide and a temperature controller maintaining said composition of 
matter at a temperature less than said T c . 

CLAIM 192 (Previously Presented) An apparatus comprising a current source flowing a 
superconducting electrical current in a composition of matter having a T e greater than or 
equal to 26°K, said composition comprising at least one each of a rare earth, and 
copper oxide and a temperature controller maintaining said composition of matter at a 
temperature less than said T c . 

CLAIM 193 (Previously Presented) An apparatus comprising a current source flowing a 
superconducting electrical current in a composition of matter having a T c greater than or 
equal to 26°K carrying, said composition comprising at least one each of a Group III B 
element, and copper oxide and a temperature controller maintaining said composition 
of matter at a temperature less than said T c . 

CLAIM 194 (Previously Presented) An apparatus comprising a current source flowing a 
superconducting electrical current in a transition metal oxide comprising a T c greater 
than or equal to 26°K and a temperature controller maintaining said transition metal 
oxide at a temperature less than said T c . 



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CLAIM 195 (Previously Presented) An apparatus comprising a current source flowing a 
superconducting electrical current in a copper oxide composition of matter comprising a 
T e greater than or equal to 26°K and a temperature controller maintaining said copper 
oxide composition of matter at a temperature less than said T c . 

CLAIM 196 (Previously Presented) An apparatus comprising: 

a composition including a transition metal, a Group III B element, an alkaline earth 
element, and oxygen, where said composition is a mixed transition metal oxide having a 
non-stoichiometric amount of oxygen therein and exhibiting a superconducting state at 
a temperature greater than or equal to 26°K, 

a temperature controller maintaining said composition in said superconducting state at 
a temperature greater than or equal to 26°K, and 

a current source passing an electrical current through said composition while said 
composition is in said superconducting state. 

CLAIM 197 (Previously Presented) The apparatus of claim 196, where said transition 
metal is copper. 

CLAIM 198 (Previously Presented) A superconductive apparatus for causing electric 
current flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound having 
a substantially layered perovskite crystal structure, the composition having a 
superconductor transition temperature T e of greater than or equal to 26°K; 



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(b) a temperature controller maintaining the superconductor element at a temperature 
greater than or equal to 26°K and below the superconductor transition temperature T e 
of the superconductive composition; and 

(c) a current source causing an electric current to flow in the superconductor element. 

CLAIM 199 (Previously Presented) The superconductive apparatus according to claim 

198 in which the copper-oxide compound of the superconductive composition includes 
at least one element selected from the group consisting of a rare-earth element, a 
Group III B element and an alkaline-earth element. 

CLAIM 200 (Previously Presented) The superconductive apparatus according to claim 

199 in which the rare-earth is lanthanum. 

CLAIM 201 (Previously Presented) The superconductive apparatus according to claim 
199 in which the alkaline-earth element is barium. 

CLAIM 202 (Previously Presented) The superconductive apparatus according to claim 
198 in which the copper-oxide compound of the superconductive composition includes 
mixed valent copper ions. 

CLAIM 203 (Previously Presented) The superconductive apparatus according to claim 

202 in which the copper-oxide compound includes at least one element in a 
nonstoichiometric atomic proportion. 

CLAIM 204 (Previously Presented) The superconductive apparatus according to claim 

203 in which oxygen is present in the copper-oxide compound in a nonstoichiometric 
atomic proportion. 



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CLAIM 205 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a substantially layered perovskite crystal structure, the 
copper-oxide compound including at least one element selected from the 
group consisting of a rare-earth element, a Group 1MB element and an 
alkaline-earth element, the composition having a 
superconductive/resistive transition defining a 

superconductive/resistive-transition temperature range between an upper 
limit defined by a transition-onset temperature T c and a lower limit defined 
by an effectively-zero-bulk-resistivity intercept temperature Tp= 0 , the 
transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept 
temperature Tp=o of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 206 (Previously Presented) The superconductive apparatus according to claim 
205 in which said at least one element is lanthanum. 

CLAIM 207 (Previously Presented) The superconductive apparatus according to claim 
205 in which the alkaline-earth element is barium. 

CLAIM 208 (Previously Presented) The superconductive apparatus according to claim 
205 in which the copper-oxide compound of the superconductive composition includes 
mixed valent copper ions. 



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CLAIM 209 (Previously Presented) The superconductive apparatus according to claim 

208 in which the copper-oxide compound includes at least one element in a 
nonstoichiometric atomic proportion. 

CLAIM 210 (Previously Presented) The superconductive apparatus according to claim 

209 in which oxygen is present in the copper-oxide compound in a nonstoichiometric 
atomic proportion. 

CLAIM 21 1 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a substantially layered perovskite crystal structure, the 
composition having a superconductive transition temperature T c of greater 
than or equal to 26°K, said superconductive composition includes at least 
one element selected from the group consisting of a Group II A element, a 
rare earth element; and a Group III B element; 

(b) a temperature controller maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor 
transition temperature T c of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 



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CLAIM 212 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a substantially layered perovskite crystal structure, the 
copper-oxide compound including at least one element selected from the 
group consisting of a Group II A element, a rare earth element and a 
Group III B element, the composition having a superconductive/resistive 
transition defining a superconductive/resistive-transition temperature 
range between an upper limit defined by a transition-onset temperature T c 
and a lower limit defined by an effectively-zero-bulk-resistivity intercept 
temperature Tp=o , the transition-onset temperature T c being greater than or 
equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept 
temperature Tp= 0 of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 213 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a substantially layered perovskite crystal structure, the 
composition having a superconductive transition temperature T c of greater 
than or equal to 26°K, said superconductive composition includes a Group 



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II A element and at least one element selected from the group consisting 
of a rare earth element and a Group III B element; 

(b) a temperature controller maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor 
transition temperature T c of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 214 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound having a substantially layered perovskite crystal structure, the 
copper-oxide compound including a Group II A element and at least one 
element selected from the group consisting of a rare earth element and a 
Group III B element, the composition having a superconductive/resistive 
transition defining a superconductive-resistive-transition temperature 
range between an upper limit defined by a transition-onset temperature T c 
and a lower limit defined by an effectively-zero-bulk-resistivity intercept 
temperature Tp=o, the transition-onset temperature T c being greater than 
or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept 
temperature Tp=oof the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 



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CLAIM 215 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a transition 
metal oxide compound having a substantially layered perovskite crystal 
structure, the composition having a superconductive transition 
temperature T c of greater than or equal to 26°K, said superconductive 
composition includes a Group II A element and at least one element 
selected from the group consisting of a rare earth element and a Group III 
B element; 

(b) a temperature controller maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor 
transition T c of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 216 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive 
composition, the superconductive composition consisting essentially of a 
transition metal-oxide compound having a substantially layered perovskite 
crystal structure, the transition metal-oxide compound including a Group II 
A element and at least one element selected from the group consisting of 
a rare earth element and a Group III B element, the composition having a 
superconductive/resistive transition defining a 



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superconductive/resistive-transition temperature range between an upper 
limit defined by a transition-onset temperature T c and a lower limit defined 
by an effectively-zero-bulk-resistivity intercept temperature T p=0 , the 
transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept 
temperature T p=0 of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 217 (Previously Presented) An apparatus according to claim 182 wherein said 
composition comprises a substantially layered perovskite crystal structure. 

CLAIM 218 (Previously Presented) An apparatus according to claim 183 wherein said 
superconducting transistor metal oxide comprises a substantially layered perovskite 
crystal structure. 

CLAIM 219 (Previously Presented) An apparatus according to claim 184 wherein said 
superconducting copper oxide comprises a substantially layered perovskite crystal 
structure. 

CLAIM 220 (Previously Presented) An apparatus according to claim 185 wherein said 
superconducting oxide composition comprises a substantially layered perovskite crystal 
structure. 

CLAIM 221 (Previously Presented) An apparatus according to claim 186 wherein said 
superconducting oxide composition comprises a substantially layered perovskite crystal 
structure. 



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CLAIM 222 (Previously Presented) An apparatus according to claim 187 wherein said 
transistor metal oxide comprises a substantially layered perovskite crystal structure. 

CLAIM 223 (Previously Presented) An apparatus according to claim 188 wherein said 
copper oxide comprises a substantially layered perovskite crystal structure. 

CLAIM 224 (Previously Presented) An apparatus according to claim 189 wherein said 
composition comprises a substantially layered perovskite crystal structure. 

CLAIM 225 (Previously Presented) An apparatus according to claim 190 wherein said 
composition of matter comprises a substantially layered perovskite crystal structure. 

CLAIM 226 (Previously Presented) An apparatus according to claim 191 wherein said 
composition of matter comprises substantially layered perovskite crystal structure. 

CLAIM 227 (Previously Presented) An apparatus according to claim 192 wherein said 
composition of matter comprises a substantially layered perovskite crystal structure. 

CLAIM 228 (Previously Presented) An apparatus according to claim 193 wherein said 
composition of matter comprises substantially layered perovskite crystal structure. 

CLAIM 229 (Previously Presented) An apparatus according to claim 194 wherein said 
transistor metal oxide comprises substantially layered perovskite crystal structure. 

CLAIM 230 (Previously Presented) An apparatus according to claim 195 wherein said 
copper oxide composition comprises substantially layered perovskite crystal structure. 

CLAIM 231 (Previously Presented) An apparatus comprising a composition of matter 
having a T c greater than or equal to 26°K carrying a superconducting current, said 
composition comprising at least one each of a rare earth, an alkaline earth, and copper 
oxide. 



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CLAIM 232 (Previously Presented) An apparatus comprising: 

a transition metal oxide comprising a phase therein which exhibits a superconducting 
state at a critical temperature greater than or equal to 26°K, 

a temperature controller for maintaining the temperature of said material at a 
temperature less than said critical temperature to produce said superconducting state in 
said phase, and 

a source of an electrical supercurrent through said transition metal oxide while it is in 
said superconducting state. 

CLAIM 233 (Previously Presented) An apparatus according to claim 232, where said 
transition metal oxide is comprised of a transition metal capable of exhibiting multivalent 
states. 

CLAIM 234 (Previously Presented) An apparatus according to claim 232, where said 
transition metal oxide is comprised of a Cu oxide. 

CLAIM 235 (Previously Presented) An apparatus comprising: 

a composition including a transition metal, a rare earth or rare earth-like element, an 
alkaline earth element, and oxygen, where said composition is a mixed transition metal 
oxide comprising a non-stoichiometric amount of oxygen therein and exhibiting a 
superconducting state at a temperature greater than or equal to 26°K, 

a temperature controller for maintaining said composition in said superconducting state 
at a temperature greater than or equal to 26°K, and 



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a source of an electrical current through said composition while said composition is in 
said superconducting state. 

CLAIM 236 (Previously Presented) An apparatus according to claim 235, where said 
transition metal is copper. 

CLAIM 237 (Previously Presented) An apparatus comprising: 

a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K, a temperature controller for maintaining said composition at a 
temperature greater than or equal to 26°K at which temperature said composition 
exhibits said superconductive state, and 

a source of an electrical current through said composition while said composition is in 
said superconductive state. 

CLAIM 238 (Previously Presented) An apparatus according to claim 237, where said 
composition is comprised of a metal oxide. 

CLAIM 239 (Previously Presented) An apparatus according to claim 238, where said 
composition is comprised of a transition metal oxide. 

CLAIM 240 (Previously Presented) An apparatus capable of carrying electric current 
flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a layer-type perovskite-like crystal structure, the composition comprising a 
superconductor transition temperature T c of greater than or equal to 26°K; 



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(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 241 (Previously Presented) An apparatus according to claim 240 in which the 
copper-oxide compound of the superconductive composition includes at least one 
rare-earth or rare-earth-like element and at least one alkaline-earth element. 

CLAIM 242 (Previously Presented) An apparatus according to claim 241 in which the 
rare-earth or rare-earth-like element is lanthanum. 

CLAIM 243 (Previously Presented) An apparatus according to claim 241 in which the 
alkaline-earth element is barium. 

CLAIM 244 (Previously Presented) An apparatus according to claim 240 in which the 
copper-oxide compound of the superconductive composition includes mixed valent 
copper ions. 

CLAIM 245 (Previously Presented) An apparatus according to claim 244 in which the 
copper-oxide compound includes at least one element in a nonstoichiometric atomic 
proportion. 

CLAIM 246 (Previously Presented) An apparatus according to claim 245 in which 
oxygen is present in the copper-oxide compound in a nonstoichiometric atomic 
proportion. 



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CLAIM 247 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a layer-type perovskite-like crystal structure, the copper-oxide compound 
including at least one rare-earth or rare-earth-like element and at least one 
alkaline-earth element, the composition comprising a superconductive/resistive 
transition defining a superconductive/resistive-transition temperature range between an 
upper limit defined by a transition-onset temperature T 0 and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature T p=0 , the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp= 0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 248 (Previously Presented) An apparatus according to claim 247 in which the 
rare-earth or rare-earth-like element is lanthanum. 

CLAIM 249 (Previously Presented) An apparatus according to claim 247 in which the 
alkaline-earth element is barium. 

CLAIM 250 (Previously Presented) An apparatus according to claim 247 in which the 
copper-oxide compound of the superconductive composition includes mixed valent 
copper ions. 



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CLAIM 251 (Previously Presented) An apparatus according to claim 250 in which the 
copper-oxide compound includes at least one element in a nonstoichiometric atomic 
proportion. 

CLAIM 252 (Previously Presented) An apparatus according to claim 251 in which 
oxygen is present in the copper-oxide compound in a nonstoichiometric atomic 
proportion. 

CLAIM 253 (Previously Presented) An apparatus comprising: 

a copper oxide comprising a phase therein which exhibits a superconducting state at a 
critical temperature greater than or equal to 26°K; 

a temperature controller for maintaining the temperature of said material at a 
temperature less than said critical temperature to produce said superconducting state in 
said phase; 

a source of an electrical supercurrent through said copper oxide while it is in said 
superconducting state; 

said copper oxide includes at least one element selected from the group consisting of a 
Group II A element, a rare earth element and a Group Ml B element. 

CLAIM 254 (Previously Presented) An apparatus comprising: 

a composition including copper, oxygen and an element selected from the group 
consisting of a Group II A element, a rare earth element and a Group III B element, 
where said composition is a mixed copper oxide comprising a non-stoichiometric 
amount of oxygen therein and exhibiting a superconducting state at a temperature 
greater than or equal to 26°K; 



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a temperature controller for maintaining said composition in said superconducting state 
at a temperature greater than or equal to 26°K; and 

a source of an electrical current through said composition while said composition is in 
said superconducting state. 

CLAIM 255 (Previously Presented) An apparatus comprising: 

a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K; 

a temperature controller for maintaining said composition at a temperature greater than 
or equal to 26°K at which temperature said composition exhibits said superconductive 
state; 

a source of an electrical current through said composition while said composition is in 
said superconductive state; and 

said composition including a copper oxide and an element selected from the group 
consisting of Group II A element, a rare earth element and a Group III B element. 

CLAIM 256 (Previously Presented) An apparatus capable of carrying an electric-current 
flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a layer-type perovskite-like crystal structure, the composition comprising a 
superconductive transition temperature T c of greater than or equal to 26°K, said 
superconductive composition includes at least one element selected from the group 
consisting of a Group II A element, a rare earth element; and a Group III B element; 



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(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 257 (Previously Presented) An apparatus capable of carrying an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a layer-type perovskite-like crystal structure, the copper-oxide compound 
including at least one element selected from the group consisting of a Group II A 
element, a rare earth element and a Group III B element, the composition comprising a 
superconductive/resistive transition defining a superconductive/resistive-transition 
temperature range between an upper limit defined by a transition-onset temperature T c 
and a lower limit defined by an effectively-zero-bulk-resistivity intercept temperature 
Tp= 0) the transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp=o of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 258 (Previously Presented) An apparatus comprising: 

a copper oxide comprising a phase therein which exhibits a superconducting state at a 
critical temperature greater than or equal to 26°K; 



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a temperature controller for maintaining the temperature of said material at a 
temperature less than said critical temperature to produce said superconducting state in 
said phase; 

a source of an electrical supercurrent through said copper oxide while it is in said 
superconducting state; 

said copper oxide includes at least one element selected from the group consisting of a 
Group II A element and at least one element selected from the group consisting of a 
rare earth element and a Group 1MB element. 

CLAIM 259 (Previously Presented) An apparatus comprising: 

a composition including copper, oxygen and an element selected from the group 
consisting of at least one Group II A element and at least one element selected from 
the group consisting of a rare earth element and a Group III B element, where said 
composition is a mixed copper oxide comprising a non-stoichiometric amount of oxygen 
therein and exhibiting a superconducting state at a temperature greater than or equal to 
26°K; 

a temperature for maintaining said composition in said superconducting state at a 
temperature greater than or equal to 26°K; and 

a source of an electrical current through said composition while said composition is in 
said superconducting state. 

CLAIM 260 (Previously Presented) An apparatus comprising: 

a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K; 



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a temperature for maintaining said composition at a temperature greater than or equal 
to 26°K at which temperature said composition exhibits said superconductive state; 

a source of an electrical current through said composition while said composition is in 
said superconductive state; and 

said composition including a copper oxide and at least one element selected from the 
group consisting of Group II A and at least one element selected from the group 
consisting of a rare earth element and a Group III B element. 

CLAIM 261 (Previously Presented) An apparatus capable of carrying an electric-current 
flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a layer-type perovskite-like crystal structure, the composition comprising a 
superconductive transition temperature T c of greater than or equal to 26°K, said 
superconductive composition includes at least one element selected from the group 
consisting of a Group II A element and at least one element selected from the group 
consisting of a rare earth element and a Group NIB element; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 



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CLAIM 262 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a layer-type perovskite-like crystal structure, the copper-oxide compound 
including at least one element selected from the group consisting of a Group II A 
element and at least one element selected from the group consisting of a rare earth 
element and a Group III B element, the composition comprising a 
superconductive/resistive transition defining a superconductive-resistive-transition 
temperature range between an upper limit defined by a transition-onset temperature T c 
and a lower limit defined by an effectively-zero-bulk-resistivity intercept temperature Tp=o 
, the transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp=o of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 263 (Currently Amended) An apparatus comprising: 

a transition metal oxide comprising a phase therein which exhibits a superconducting 
state at a critical temperature greater than or equal to 26°K; 

a temperature controller for maintaining the temperature of said material at a 
temperature less than said critical temperature to produce said superconducting state in 
said phase; 

a source of an electrical supercurrent through said [[copper]] transition metal oxide 
while it is in said superconducting state; 



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said transitional metal oxide includes at least one element selected from the group 
consisting of a Group II A element and at lest one element selected from the group 
consisting of a rare earth element and a Group 1MB element. 

CLAIMS 264 (Previously Presented) An apparatus comprising: 

a composition including a transition metal, oxygen and an element selected from the 
group consisting of at least one Group II A element and at least one element selected 
from the group consisting of a rare earth element and a Group 1MB element, where said 
composition is a mixed transitional metal oxide formed from said transition metal and 
said oxygen, said mixed transition metal oxide comprising a non-stoichiometric amount 
of oxygen therein and exhibiting a superconducting state at a temperature greater than 
or equal to 26°K; 

a temperature controller for maintaining said composition in said superconducting state 
at a temperature greater than or equal to 26°K; and 

a source of an electrical current through said composition while said composition is in 
said superconducting state. 

CLAIM 265 (Previously Presented) An apparatus comprising: 

a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K; 

a temperature controller for maintaining said composition at a temperature greater than 
or equal to 26°K at which temperature said composition exhibits said superconductive 
state; 



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a source of an electrical current through said composition while said composition is in 
said superconductive state; and 

said composition including a transitional metal oxide and at least one element selected 
from the group consisting of Group II A element and at least one element selected from 
the group consisting of a rare earth element and a Group III B element. 

CLAIM 266 (Previously Presented) An apparatus capable of carrying an electric-current 
flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal oxide 
compound comprising a layer-type perovskite-like crystal structure, the composition 
comprising a superconductive transition temperature T c of greater than or equal to 
26°K, said superconductive composition includes at least one element selected from 
the group consisting of a Group II A element and at least one element selected from the 
group consisting of a rare earth element and a Group III B element; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition T c of 
the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 267 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal-oxide 
compound comprising a layer-type perovskite-like crystal structure, the transition 



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metal-oxide compound including at least one element selected from the group 
consisting of a Group II A element and at least one element selected from the group 
consisting of a rare earth element and a Group III B element, the composition 
comprising a superconductive/resistive transition defining a 

superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature T p = 0l the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp= 0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 268 (Previously Presented) An apparatus comprising: 

a copper oxide comprising a phase therein which exhibits a superconducting state at a 
critical temperature greater than or equal to 26°K; 

a temperature controller for maintaining the temperature of said material at a 
temperature less than said critical temperature to produce said superconducting state in 
said phase; 

a source for an electrical supercurrent through said copper oxide while it is in said 
superconducting state; 

said copper oxide includes at least one element selected from group consisting of a 
Group II A element, at least one element selected from the group consisting of a rare 
earth element and at least one element selected from the group consisting of a Group 
III B element. 



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CLAIM 269 (Previously Presented) An apparatus comprising: 

a composition including copper, oxygen and an element selected from the group 
consisting of at least one Group II A element and at least one element selected from 
the group consisting of a rare earth element at least one element selected from the 
group consisting of a Group III B element, where said composition is a mixed copper 
oxide comprising a non-stoichiometric amount of oxygen therein and exhibiting a 
superconducting state at a temperature greater than or equal to 26°K; 

a temperature controller for maintaining said composition in said superconducting state 
at a temperature greater than or equal to 26°K; and 

a source of an electrical current through said composition while said composition is in 
said superconducting state. 

CLAIM 270 (Previously Presented) An apparatus comprising: 

a composition exhibiting a superconductive state at a temperature greater than or equal 
to 26°K; 

a temperature controller for maintaining said composition at a temperature greater than 
or equal to 26°K at which temperature said composition exhibits said superconductive 
state; 

a source of an electrical current through said composition while said composition is in 
said superconductive state; and 

said composition including a copper oxide and at least one element selected from the 
group consisting of Group II A element, at least one element selected from the group 



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consisting of a rare earth element and at least one element selected from the group 
consisting of a Group 1MB element. 

CLAIM 271 (Previously Presented) An apparatus for causing an electric-current flow in 
a superconductive state at a temperature greater than or equal to 26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting 

essentially of a copper-oxide compound comprising a layer-type perovskite-like crystal 
structure, the composition comprising a superconductive transition temperature T c of 
greater than or equal to 26°K, said superconductive composition includes at least one 
element selected from the group consisting of a Group II A element, at least one 
element selected from the group consisting of a rare earth element and at least one 
element selected from the group consisting of a Group 1MB element; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 272 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a layer-type perovskite-like crystal structure, the copper-oxide compound 
including at least one element selected from the group consisting of a group II A 
element, at least one element selected from the group consisting of a rare earth 
element and at least one element selected from the group consisting of a Group 1MB 



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element, the composition comprising a superconductive-resistive transition temperature 
defining a superconductive/resistive-transition temperature range between an upper 
limit defined by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature Tp= 0 , the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp=o of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 273 (Previously Presented) An apparatus comprising a composition comprising 
a transition temperature greater than or equal to 26°K, the composition including a rare 
earth or alkaline earth element, a transition metal element capable of exhibiting 
multivalent states and oxygen, including at least one phase that exhibits 
superconductivity at temperature greater than or equal to 26°K, a temperature controller 
for maintaining said composition at said temperature to exhibit said superconductivity 
and a source of an electrical superconducting current through said composition with 
said phrase exhibiting said superconductivity. 

CLAIM 274 (Previously Presented) An apparatus comprising providing a 
superconducting transition metal oxide comprising a superconductive onset 
temperature greater than or equal to 26°K, a temperature controller for maintaining said 
superconducting transition metal oxide at a temperature less than said superconducting 
onset temperature and a source of a superconducting current therein. 

CLAIM 275 (Previously Presented) An apparatus comprising a superconducting copper 
oxide comprising a superconductive onset temperature greater than or equal to 26°K, a 
temperature controller for maintaining said superconducting copper oxide at a 



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temperature less than said superconducting onset temperature and a source of a 
superconducting current in said superconducting oxide. 

CLAIM 276 (Previously Presented) An apparatus comprising a superconducting oxide 
composition comprising a superconductive onset temperature greater than or equal to 
26°K , a temperature controller for maintaining said superconducting copper oxide at a 
temperature less than said superconducting onset temperature and a source of a 
superconducting current therein, said composition comprising at least one each of rare 
earth, an alkaline earth, 
and copper. 

CLAIM 277 (Previously Presented) An apparatus comprising a superconducting oxide 
composition comprising a superconductive onset temperature greater than or equal to 
26°K, a temperature controller for maintaining said superconducting copper oxide at a 
temperature less than said superconducting onset temperature and a source of a 
superconducting electrical current therein, said composition comprising at least one 
each of a Group III B element, an alkaline earth, and copper. 

CLAIM 278 (Previously Presented) An apparatus comprising a source of a 
superconducting electrical current in a transition metal oxide comprising a T c greater 
than or equal to 26°K and a temperature controller for maintaining said transition metal 
oxide at a temperature less than said T c . 

CLAIM 279 (Previously Presented) An apparatus comprising a source of a 
superconducting current in a copper oxide comprising a T c greater than or equal to 26°K 
and a temperature controller for maintaining said copper oxide at a temperature less 
than said T c . 



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CLAIM 280 (Previously Presented) An apparatus comprising: 

a composition of the formula Ba x La x -5, Cu 5 0 Y , wherein x is from about 0.75 to about 1 
and y is the oxygen deficiency resulting from annealing said composition at 
temperatures from about 540°C to about 950°C and for times of about 15 minutes to 
about 1 2 hours, said composition comprising a metal oxide phase which exhibits a 
superconducting state at a critical temperature greater than or equal to 26°K; 

a temperature controller for maintaining the temperature of said composition at a 
temperature less than said critical temperature to induce said superconducting state in 
said metal oxide phase; and 

a source of an electrical current through said composition while said metal oxide phase 
is in said superconducting state. 

CLAIM 281 (Previously Presented) An apparatus comprising a source of a 
superconducting electrical current in a composition of matter comprising a T c greater 
than or equal to 26°K, said composition comprising at least one each of a III B element, 
an alkaline earth, and copper oxide and a temperature controller for maintaining said 
composition of matter at a temperature less than T c . 

CLAIM 282 (Previously Presented) An apparatus comprising a source of a 
superconducting electrical current in a composition of matter comprising a T c greater 
than or equal to 26°K, said composition comprising at least one each of a rare earth, 
alkaline earth, and copper oxide and a temperature controller for maintaining said 
composition of matter at a temperature less than said T c . 

CLAIM 283 (Previously Presented) An apparatus comprising a source of a 
superconducting electrical current in a composition of matter comprising a T c greater 
than or equal to 26°K, said composition comprising at least one each of a rare earth, 



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and copper oxide and a temperature controller for maintaining said composition of 
matter at a temperature less than said T c . 

CLAIM 284 (Previously Presented) An apparatus comprising a source of a 
superconducting electrical current in a composition of matter comprising a T c greater 
than or equal to 26°K carrying, said composition comprising at least one each of a III B 
element, and copper oxide and a temperature controller for maintaining said 
composition of matter at a temperature less than said T c . 

CLAIM 285 (Previously Presented) An apparatus comprising a source of a 
superconducting electrical current in a transition metal oxide comprising a T c greater 
than or equal to 26°K and a temperature controller for maintaining said transition metal 
oxide at a temperature less than said T c . 

CLAIM 286 (Previously Presented) An apparatus comprising a source of a 
superconducting electrical current in a copper oxide composition of matter comprising a 
T c greater than or equal to 26°K and a temperature controller for maintaining said 
copper oxide composition of matter at a temperature less than said T c . 

CLAIM 287 (Previously Presented) An apparatus comprising: 

a composition including a transition metal, a group NIB element, an alkaline earth 
element, and oxygen, where said composition is a mixed transition metal oxide 
comprising a non-stoichiometric amount of oxygen therein and exhibiting a 
superconducting state at a temperature greater than or equal to 26°K, 

a temperature controller for maintaining said composition in said superconducting state 
at a temperature greater than or equal to 26°K, and 

a source of an electrical current through said composition while said composition is in 
said superconducting state. 



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CLAIM 288 (Previously Presented) An apparatus according to claim 287, where said 
transition metal is copper. 

CLAIM 289 (Previously Presented) An apparatus for causing electric current flow in a 
superconductive state at a temperature greater than or equal to 26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a substantially layered perovskite crystal structure, the composition 
comprising a superconductor transition temperature T c of greater than or equal to 26°K; 

b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 290 (Previously Presented) An apparatus according to claim 289 in which the 
copper-oxide compound of the superconductive composition includes at least one 
element selected from the group consisting of a rare-earth element and a Group III B 
element and at least one alkaline-earth element. 

CLAIM 291 (Previously Presented) An apparatus according to claim 290 in which the 
rare-earth or element is lanthanum. 

CLAIM 292 (Previously Presented) An apparatus according to claim 290 in which the 
alkaline-earth element is barium. 



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CLAIM 293 (Previously Presented) An apparatus according to claim 289 in which the 
copper-oxide compound of the superconductive composition includes mixed valent 
copper ions. 

CLAIM 294 (Previously Presented) An apparatus according to claim 293 in which the 
copper-oxide compound includes at least one element in a nonstoichiometric atomic 
proportion. 

CLAIM 295 (Previously Presented) An apparatus according to claim 294 in which 
oxygen is present in the copper-oxide compound in a nonstoichiometric atomic 
proportion. 

CLAIM 296 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a substantially layered perovskite crystal structure, the copper-oxide 
compound including at least one element selected from the group consisting of a 
rare-earth element and a Group III B element and at least one alkaline-earth element, 
the composition comprising a superconductive/resistive transition defining a 
superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature Tp=o, the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp= 0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 



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CLAIM 297 (Previously Presented) An apparatus according to claim 296 in which said 
at least one element is lanthanum. 

CLAIM 298 (Previously Presented) An apparatus according to claim 296 in which the 
alkaline-earth element is barium. 

CLAIM 299 (Previously Presented) An apparatus according to claim 296 in which the 
copper-oxide compound of the superconductive composition includes mixed valent 
copper ions. 

CLAIM 300 (Previously Presented) An apparatus according to claim 299 in which the 
copper-oxide compound includes at least one element in a nonstoichiometric atomic 
proportion. 

CLAIM 301 (Previously Presented) An apparatus according to claim 300 in which 
oxygen is present in the copper-oxide compound in a nonstoichiometric atomic 
proportion. 

CLAIM 302 (Previously Presented) An apparatus for causing electric-current flow in a 
superconductive state at a temperature greater than or equal to 26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a substantially layered perovskite crystal structure, the composition 
comprising a superconductive transition temperature T c of greater than or equal to 
26°K, said superconductive composition includes at least one element selected from 
the group consisting of a Group II A element, a rare earth element; and a Group III B 
element; 



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(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 303 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a substantially layered perovskite crystal structure, the copper-oxide 
compound including at least one element selected from the group consisting of a Group 
II A element, a rare earth element and a Group III B element, the composition 
comprising a superconductive/resistive transition defining a 

superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature Tp= 0 , the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp= 0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 304 (Previously Presented) An apparatus for causing electric-current flow in a 
superconductive state at a temperature greater than or equal to 26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 



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comprising a substantially layered perovskite crystal structure, the composition 
comprising a superconductive transition temperature T c of greater than or equal to 
26°K, said superconductive composition includes at least one element selected from 
the group consisting of a Group II A element and at least one element selected from the 
group consisting of a rare earth element and a Group NIB element; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 305 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a substantially layered perovskite crystal structure, the copper-oxide 
compound including at least one element selected from the group consisting of a Group 
II A element and at least one element selected from the group consisting of a rare earth 
element and a Group 1MB element, the composition comprising a 
superconductive/resistive transition defining a superconductive-resistive-transition 
temperature range between an upper limit defined by a transition-onset temperature Tc 
and a lower limit defined by an effectively-zero-bulk-resistivity intercept temperature 
Tp=o, the transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp= 0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 



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CLAIM 306 (Previously Presented) An apparatus for causing electric-current flow in a 
superconductive state at a temperature greater than or equal to 26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal oxide 
compound comprising a substantially layered perovskite crystal structure, the 
composition comprising a superconductive transition temperature T c of greater than or 
equal to 26°K, said superconductive composition includes at least one element selected 
from the group consisting of a Group II A element and at least one element selected 
from the group consisting of a rare earth element and a Group III B element; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition T c of 
the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 307 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal-oxide 
compound comprising a substantially layered perovskite crystal structure, the transition 
metal-oxide compound including at least one element selected from the group 
consisting of a Group II A element and at least one element selected from the group 
consisting of a rare earth element and a Group III B element, the composition 
comprising a superconductive/resistive transition defining a 

superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 



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effectively-zero-bulk-resistivity intercept temperature T p=0 , the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp= 0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 308 (Previously Presented) An apparatus according to claim 273 wherein said 
composition comprises a substantially layered perovskite crystal structure. 

CLAIM 309 (Previously Presented) An apparatus according to claim 274 wherein said 
superconducting transistor metal oxide comprises a substantially layered perovskite 
crystal structure. 

CLAIM 310 (Previously Presented) An apparatus according to claim 275 wherein said 
superconducting copper oxide comprises a substantially layered perovskite crystal 
structure. 

CLAIM 31 1 (Previously Presented) An apparatus according to claim 276 wherein said 
superconducting oxide composition comprises a substantially layered perovskite crystal 
structure. 

CLAIM 312 (Previously Presented) An apparatus according to claim 277 wherein said 
superconducting oxide composition comprises a substantially layered perovskite crystal 
structure. 

CLAIM 313 (Previously Presented) An apparatus according to claim 278 wherein said 
transistor metal oxide comprises a substantially layered perovskite crystal structure. 



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CLAIM 314 (Previously Presented) An apparatus according to claim 279 wherein said 
copper oxide comprises a substantially layered perovskite crystal structure. 

CLAIM 315 (Previously Presented) An apparatus according to claim 280 wherein said 
composition comprises a substantially layered perovskite crystal structure. 

CLAIM 31 6 (Previously Presented) An apparatus according to claim 281 wherein said 
composition of matter comprises a substantially layered perovskite crystal structure. 

CLAIM 317 (Previously Presented) An apparatus according to claim 282 wherein said 
composition of matter comprises substantially layered perovskite crystal structure. 

CLAIM 318 (Previously Presented) An apparatus according to claim 283 wherein said 
composition of matter comprises a substantially layered perovskite crystal structure. 

CLAIM 319 (Previously Presented) An apparatus according to claim 284 wherein said 
composition of matter comprises substantially layered perovskite crystal structure. 

CLAIM 320 (Previously Presented) An apparatus according to claim 285 wherein said 
transistor metal oxide comprises substantially layered perovskite crystal structure. 

CLAIM 321 (Previously Presented) An apparatus according to claim 286 wherein said 
copper oxide composition comprises substantially layered perovskite crystal structure. 

CLAIM 322 (Currently Amended) A superconductive combination according to anyone 
of claims 84 or 85, wherein said mixed transition metal oxide can be made [[in bulk]] 
according to [[a]] known principles [[comprising a general principle]] of ceramic science. 



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CLAIM 323 (Currently Amended) An apparatus according to anyone of claims 86, 87, 
144, 146, 147, 163, 164, 168, 169, 173, 174, 178, 182, 189, 196, 197, 214, 224, 235, 
236, 237, 239, 254, 255, 259, 260, 264, 265 or 273, wherein said composition can be 
made [[in bulk]] according to [[a]] known principles [[comprising a general principle]] of 
ceramic science. 

CLAIM 324 (Currently Amended) A combination according to anyone of claims 91 , 92 
or 36 to 39, wherein said composition can be made [[in bulk]] according to [[a]] known 
principles [[comprising a general principle]] of ceramic science. 

CLAIM 325 (Currently Amended) A superconductive apparatus according to anyone of 
claims 1 to 1 1 , 33 to 35, 66 to 68,109, 130, 361-366 or 370, wherein said composition 
can be made [[in bulk]] according to [[a]] known principles [[comprising a general 
principle]] of ceramic science. 

CLAIM 326 (Currently Amended) An apparatus according to anyone of claims 93 to 95 
or 138, wherein said mixed copper oxide can be made [[in bulk]] according to [[a]] 
known principles [[comprising a general principle]] of ceramic science. 

CLAIM 327 (Currently Amended) A combination according to anyone of claims 64 or 
135, wherein said mixed copper oxide can be made [[in bulk]] according to [[a]] known 
principles [[comprising a general principle]] of ceramic science. 

CLAIM 328 (Currently Amended) A superconductive apparatus according to anyone of 
claims 48 to 52, 96 to 108, 198 to 204, 371, 383 or 384, wherein said superconductive 
composition can be made [[in bulk]] according to [[a]] known principles [[comprising a 
general principle]] of ceramic science. 



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CLAIM 329 (Currently Amended) A superconductive combination according to anyone 
of claims 12 to 23, 1 10, 131 , 132 or 367-370, wherein said superconductive 
composition can be made [[in bulk]] according to [[a]] known principles [[comprising a 
general principle] of ceramic science. 

CLAIM 330 (Currently Amended) An apparatus according to anyone of claims 185 or 
220, wherein said superconductive composition can be made [[in bulk]] according to 
[[a]] known principles [[comprising a general principle]] of ceramic science. 

CLAIM 331 (Currently Amended) A device according to claim 111, wherein said 
superconductive transition metal oxide can be made [[in bulk]] according to [[a]] known 
principles [[comprising a general principle]] of ceramic science. 

CLAIM 332 (Currently Amended) An apparatus according to anyone of claims 183, 217, 
218, 274 or 309, wherein said superconductive transition metal oxide can be made [[in 
bulk]] according to [[a]] known principles [[comprising a general principle]] of ceramic 
science. 

CLAIM 333 (Currently Amended) A device according to claim 1 12, wherein said 
superconductive copper oxide can be made [[in bulk]] according to [[a]] known 
principles [[comprising a general principle]] of ceramic science. 

CLAIM 334 (Currently Amended) An apparatus according to anyone of claims 275, 276, 
310 or 31 1 , wherein said superconductive copper oxide can be made [[in bulk]] 
according to [[a]] known principles [[comprising a general principle]] of ceramic science. 

CLAIM 335 (Currently Amended) A device according to claim 113, wherein said 
superconductive oxide composition can be made [[in bulk]] according to [[a]] known 
principles [[comprising a general principle]] of ceramic science. 



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CLAIM 336 (Currently Amended) An apparatus according to anyone of claims 186, 221 , 
272, 312 or 413, wherein said superconductive oxide composition can be made [[in 
bulk]] according to [[a]] known principles [[comprising a general principle]] of ceramic 
science. 

CLAIM 337 (Currently Amended) A device according to anyone of claims 1 14 or 1 17, 
wherein said transition metal oxide can be made [[in bulk]] according to [[a]] known 
principles [[comprising a general principle]] of ceramic science. 

CLAIM 338 (Currently Amended) An apparatus according to anyone of claims 24 to 26, 
60 to 63, 116, 141 to 143, 172, 187, 222, 232 to 234, 263, 278, 285, 287, 288, 313 or 
320, wherein said transition metal oxide can be made [[in bulk]] according to [[a]] known 
principles [[comprising a general principle]] of ceramic science. 

CLAIM 339 (Currently Amended) A superconductive apparatus according to anyone of 
claims 27-32, 132 or 370, wherein said transition metal oxide can be made [[in bulk]] 
according to [[a]] known principles [[comprising a general principle]] of ceramic science. 

CLAIM 340 (Currently Amended) An invention according to claim 118, wherein said 
transition metal oxide can be made [[in bulk]] according to [[a]] known principles 
[[comprising a general principle]] of ceramic science. 

CLAIM 341 (Currently Amended) A transition metal oxide device according to claim 
128, wherein said transition metal oxide can be made [[in bulk]] according to [[a]] known 
principles [[comprising a general principle]] of ceramic science. 

CLAIM 342 (Currently Amended) An apparatus according to anyone of claims 40 to 45, 
wherein said superconductor can be made [[in bulk]] according to [[a]] known principles 
[[comprising a general principle]] of ceramic science. 



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CLAIM 343 (Currently Amended) A device according to anyone of claims 1 19 or 121 , 
wherein said copper oxide can be made [[in bulk]] according to [[a]] known principles 
[[comprising a general principle]] of ceramic science. 

CLAIM 344 (Currently Amended) An apparatus according to claim 120, wherein said 
copper oxide can be made [[in bulk]] according to [[a]] known principles [[comprising a 
general principle]] of ceramic science. 

CLAIM 345 (Currently Amended) An invention according to claim 122, wherein said 
copper oxide can be made [[in bulk]] according to [[a]] known principles [[comprising a 
general principle]] of ceramic science. 

CLAIM 346 (Currently Amended) A superconductive apparatus according to claim 123, 
wherein said copper oxide can be made [[in bulk]] according to [[a]] principles 
[[comprising a general principle]] of ceramic science. 

CLAIM 347 (Currently Amended) A copper oxide device according to claim 129, 
wherein said copper oxide can be made [[in bulk]] according to [[a]] known principles 
[[comprising a general principle]] of ceramic science. 

CLAIM 348 (Currently Amended) An apparatus according to anyone of claims 162, 167, 
177, 188, 223, 253, 258, 268, 269, 270, 279 or 314, wherein said copper oxide can be 
made [[in bulk]] according to [[a]] known principles [[comprising a general principle]] of 
ceramic science. 

CLAIM 349 (Currently Amended) A combination according to claim 57, wherein said 
superconductive oxide can be made [[in bulk]] according to [[a]] known principles 
[[comprising a general principle]] of ceramic science. 



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CLAIM 350 (Currently Amended) A combination according to anyone of claims 58 or 
373, wherein said copper oxide conductor can be made [[in bulk]] according to [[a]] 
known principles [[comprising a general principle]] of ceramic science. 

CLAIM 351 (Currently Amended) A combination according to claim 59, wherein said 
ceramic-like material can be made [[in bulk]] according to [[a]] known principles 
[[comprising a general principle]] of ceramic science. 

CLAIM 352 (Currently Amended) A superconductive combination according to anyone 
of claims 69 to 71 or 134, wherein said superconductive composition can be made [[in 
bulk]] according to [[a]] known principles [[comprising a general principle]] of ceramic 
science. 

CLAIM 353 (Currently Amended) A superconductive apparatus according to anyone of 
claims 139, 140, 149 to 155, 156 to 161, 170, 171, 175, 176, 180, 181, 205 to 216, 
387-393, or 396-401 , wherein said superconductive composition can be made [[in bulk]] 
according to [[a]] known principles [[comprising a general principle]] of ceramic science. 

CLAIM 354 (Currently Amended) An apparatus according to anyone of claims 165, 166, 
185, 220, 240 to 246, 247 to 252, 261 , 262, 289, 290 to 301 , 394, 395, 402-406, 409 or 
410, wherein said superconductive composition can be made [[in bulk]] according to 
[[a]] known principles [[comprising a general principle]] of ceramic science. 

CLAIM 355 (Currently Amended) A combination according to anyone of claims 77 to 
81 , 186, 379 or 380, wherein said mixed copper oxide composition can be made [[in 
bulk]] according to [[a]] known principles [[comprising a general principle]] of ceramic 
science. 

CLAIM 356 (Currently Amended) A device according to anyone of claims 124 to 127, 
wherein said composition of matter can be made [[in bulk]] according to [[a]] known 
principles [[comprising a general principle]] of ceramic science. 



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CLAIM 357 (Currently Amended) An apparatus according to anyone of claims 190 to 
194, 225 to 229, 231 , 256, 257, 266, 267, 271 , 272, 281 to 284, 317 to 319, 407, or 41 1 
to 413, wherein said composition of matter can be made [[in bulk]] according to [[a]] 
known principles [[comprising a general principle]] of ceramic science. 

CLAIM 358 (Currently Amended) An apparatus according to anyone of claims 186 or 
221, wherein said superconductive oxide composition can be made [[in bulk]] according 
to [[a]] known principles [[comprising a general principle]] of ceramic science. 

CLAIM 359 (Currently Amended) An apparatus according to anyone of claims 1 95 or 
230, wherein said copper oxide composition can be made [[in bulk]] according to [[a]] 
known principles [[comprising a general principle]] of ceramic science. 

CLAIM 360 (Currently Amended) An apparatus according to anyone of claims 286 or 
321 , wherein said copper oxide composition can be made [[in bulk]] according to [[a]] 
known principles [[comprising a general principle]] of ceramic science. 

CLAIM 361 (Previously Presented) A superconducting apparatus comprising a 
composition having a transition temperature greater than or equal to 26°K, the 
composition including a rare earth or an element comprising a rare earth characteristic, 
a transition metal element capable of exhibiting multivalent states and oxygen, including 
at least one phase that exhibits superconductivity at temperature greater than or equal 
to 26°K, a means for maintaining said composition at said temperature to exhibit said 
superconductivity and means for passing an electrical superconducting current through 
said composition while exhibiting said superconductivity. 

CLAIM 362 (Previously Presented) The superconducting apparatus of claim 361 , 
further including an alkaline earth element substituted for at least one atom of said rare 
earth or element comprising a rare earth characteristic in said composition. 



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CLAIM 363 (Previously Presented) The superconducting apparatus of claim 362, where 
said rare earth or element comprising a rare earth characteristic is selected from the 
group consisting of La, Nd, and Ce. 

CLAIM 364 (Previously Presented) The superconducting apparatus of claim 361 , where 
said phase is crystalline with a structure comprising a perovskite characteristic. 

CLAIM 365 (Previously Presented) The superconducting apparatus of claim 362, where 
said phase is crystalline with a structure comprising a perovskite characteristic. 

CLAIM 366 (Previously Presented) The superconducting apparatus of claim 361 , where 
said phase exhibits a crystalline structure comprising a layered characteristic. 

CLAIM 367 (Previously Presented) The combination of claim 15, where said additional 
element is a rare earth or an element comprising a rare earth characteristic. 

CLAIM 368 (Previously Presented) The combination of claim 12, where said 
composition includes a superconducting phase comprising a perovskite characteristic. 

CLAIM 369 (Previously Presented) The combination of claim 20, where said substituted 
transition metal oxide has a structure comprising a layered characteristic. 

CLAIM 370 (Previously Presented) The superconducting apparatus of claim 31 , where 
said crystalline structure comprises a layered characteristic, enhancing the number of 
Jahn-Teller polarons in said composite. 

CLAIM 371 (Previously Presented) The superconductive apparatus of claim 48, where 
said substitutions include a rare earth or an element comprising a rare earth 
characteristic. 



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CLAIM 372 (Previously Presented) A superconductive apparatus comprised of a copper 
oxide comprising a crystalline structure comprising a layered characteristic and at least 
one additional element substituted in said crystalline structure, said structure being 
oxygen deficient and exhibiting a superconducting onset temperature greater than or 
equal to 26°K. 

CLAIM 373 (Previously Presented) A combination, comprised of: 

a copper oxide superconductor having a superconductor onset temperature greater 
than about 26°K including an element which results in a mixed valent state in said 
oxide, said oxide being crystalline and comprising a structure comprising a layered 
characteristic, 

means for passing a superconducting current through said copper oxide while it is 
maintained at a temperature greater than or equal to 26°K and less than said 
superconducting onset temperature, and 

means for cooling said copper oxide to a superconductive state at a temperature 
greater than or equal to 26°K and less than said superconducting onset temperature, 

CLAIM 374 (Previously Presented) A combination, comprised of: 

a material comprising a ceramic characteristic comprising an onset of superconductivity 
at an onset temperature greater than or equal to 26°K, 

means for passing a superconducting electrical current through said material 
comprising a ceramic characteristic while said material is maintained at a temperature 
greater than or equal to 26°K and less than said onset temperature, and 



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means for cooling said superconducting material having a ceramic characteristic to a 
superconductive state at a temperature greater than or equal to 26°K and less than said 
onset temperature, said material being superconductive at temperatures below said 
onset temperature and a ceramic at temperatures above said onset temperature. 



CLAIM 375 (Previously Presented) An apparatus comprising a composition exhibiting 
superconductivity at temperatures greater than or equal to 26°K, said composition 
being a material comprising a ceramic characteristic in the RE-AE-TM-0 system, where 
RE is a rare earth or near rare earth element, AE is an alkaline earth element, TM is a 
multivalent transition metal element having at least two valence states in said 
composition, and O is oxygen, the ratio of the amounts of said transition metal in said 
two valence states being determined by the ratio RE : AE, a source of current for 
passing a superconducting electric current in said transition metal oxide, and a cooling 
apparatus for maintaining said transition metal oxide below said onset temperature and 
at a temperature greater than or equal to 26°K. 

CLAIM 376 (Previously Presented) The combination of claim 71, where said mixed 
copper oxide further includes a rare earth or an element comprising a rare earth 
characteristic. 

CLAIM 377 (Currently Amended) [[A method for making]] An apparatus comprising a 
superconductor having a superconducting onset temperature greater than or equal to 
26°K, said superconductor being made by a method including the steps of: 

preparing powders of oxygen-containing compounds of a rare earth or rare earth-like 
element, an alkaline earth element, and copper, 



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mixing said compounds and firing said mixture to create a mixed copper oxide 
composition including said alkaline earth element and said rare earth or rare earth-like 
element, and 

annealing said mixed copper oxide composition at an elevated temperature less than 
about 950°C in an atmosphere including oxygen to produce a superconducting 
composition having a mixed copper oxide phase exhibiting a superconducting onset 
temperature greater than or equal to 26°K, said superconducting composition 
comprising a crystalline structure comprising a layered characteristic after said 
annealing step. 

CLAIM 378 (Currently Amended) [[A method for making]] An apparatus comprising a 
superconductor having a superconducting onset temperature greater than or equal to 
26°K, said superconductor being comprised of a rare earth or an element (RE) 
comprising a rare earth characteristic, an alkaline earth element (AE), copper (CU), and 
oxygen (O) and having the general formula RE-AE-CU-O, said superconductor being 
made bv a method including the steps of combining said rare earth or element 
comprising a rare earth characteristic, said alkaline earth element and said copper in 
the presence of oxygen to produce a mixed copper oxide including said rare earth or 
rare earth-like element and said alkaline earth element therein, and 

heating said mixed copper oxide to produce a superconductor having a crystalline 
structure comprising a layered characteristic and exhibiting a superconducting onset 
temperature greater than or equal to 26°K the critical transition temperature of said 
superconductor being dependent on the amount of said alkaline earth element therein. 

CLAIM 379 (Previously Presented) A combination, comprising: 

a mixed copper oxide composition including an alkaline earth element (AE) and a rare 
earth or element (RE) comprising a rare earth characteristic, said composition 
comprising a crystalline structure comprising a layered characteristic and multi-valent 



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oxidation states, said composition exhibiting a substantially zero resistance to the flow 
of electrical current therethrough when cooled to a superconducting state at a 
temperature greater than or equal to 26°K, said mixed copper oxide having a 
superconducting onset temperature greater than or equal to 26°K, and 

electrical means for passing an electrical superconducting current through said 
composition when said composition exhibits substantially zero resistance at a 
temperature greater than or equal to 26°K and less than said onset temperature. 

CLAIM 380 (Previously Presented) The combination of claim 379, wherein said 
crystalline structure comprises a perovskite characteristic. 

CLAIM 381 (Currently Amended) [[A method for making]] An apparatus comprising a 
superconductor having a superconducting onset temperature greater than or equal to 
26°K, said superconductor being comprised of a rare earth or an element (RE) 
comprising a rare earth characteristic, an alkaline earth element (AE), a transition metal 
element (TM), and Oxygen (O) and having the general formula RE-AE-TM-O, said 
superconductor being made by a method including the steps of combining said rare 
earth or element comprising a rare earth characteristic, said alkaline earth element and 
said transition metal element in the presence of oxygen to produce a mixed transition 
metal oxide including said rare earth or element comprising a rare earth characteristic 
and said alkaline earth element therein, and 

heating said mixed transition metal oxide to produce superconductor having a 
crystalline structure comprising a layered characteristic and exhibiting a 
superconducting onset temperature greater than or equal to 26°K, said superconductor 
having a non-stoichiometric amount of oxygen therein. 

CLAIM 382 (Previously Presented) The apparatus of claim 93, where said copper oxide 
material exhibits a crystalline structure comprising a layered characteristic. 



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CLAIM 383 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition comprising a copper-oxide compound having a crystal 
structure comprising a perovskite characteristic and a layered characteristic, the 
composition having a superconductor transition temperature T c of greater than or equal 
to 26°K; 

(b) means for maintaining the superconductor element at a temperature greater than or 
equal to 26°K and below the superconductor transition temperature T c of the 
superconductive composition; and 

(c) means for causing an electric current to flow in the superconductor element. 

CLAIM 384 (Previously Presented) The superconductive apparatus according to claim 

383 in which the copper-oxide compound of the superconductive composition includes 
at least one rare-earth or element comprising a rare earth characteristic and at least 
one alkaline-earth element. 

CLAIM 385 (Previously Presented) The superconductive apparatus according to claim 

384 in which the rare-earth or element comprising a rare earth characteristic is 
lanthanum. 

CLAIM 386 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a crystal structure comprising a layered characteristic and a perovskite 



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characteristic, the copper-oxide compound including at least one rare-earth or element 
comprising a rare earth characteristic and at least one alkaline-earth element, the 
composition having a superconductive/resistive transition defining a 
superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature T q=0 , the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) means for maintaining the superconductor element at a temperature below the 
effectively-zero-bulk-resistivity intercept temperature T q=0 of the superconductive 
composition; and 

(c) means for causing an electric current to flow in the superconductor element. 

CLAIM 387 (Previously Presented) The superconductive apparatus according to claim 
386 in which the rare-earth or an element comprising a rare earth characteristic is 
lanthanum. 

CLAIM 388 (Previously Presented) An apparatus comprising: 

a composition including a transition metal, a rare earth or an element 
comprising a rare earth characteristic, an alkaline earth element, and 
oxygen, where said composition is a mixed transition metal oxide having a 
non-stoichiometric amount of 

oxygen therein and exhibiting a superconducting state at a temperature 
greater than or equal to 26°K, 

a temperature controller maintaining said composition in said 
superconducting state at a temperature greater than or equal to 26°K, and 



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a current source passing an electrical current through said composition 
while said composition is in said superconducting state. 

CLAIM 389 (Previously Presented) A superconductive apparatus for causing electric 
current flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound comprising a crystal structure comprising a layered 
characteristic and a perovskite characteristic, the composition having a 
superconductor transition temperature T c of greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor 
transition temperature T c of the superconductive composition; and 

(c) causing an electric current to flow in the superconductor element. 

CLAIM 390 (Previously Presented) The superconductive apparatus according to claim 

389 in which the copper-oxide compound of the superconductive composition includes 
at least one rare-earth or an element comprising a rare earth characteristic and at least 
one alkaline-earth element. 

CLAIM 391 (Previously Presented) The superconductive apparatus according to claim 

390 in which the rare-earth or an element comprising a rare earth characteristic is 
lanthanum. 

CLAIM 392 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 



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(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound comprising a crystal structure comprising a layered 
characteristic and a perovskite characteristic, the copper-oxide compound 
including at least one rare-earth or rare-earth-like element and at least 
one alkaline-earth element, the composition having a 
superconductive/resistive-transition defining a 

superconductive/resistive-transition temperature range between an upper 
limit defined by a transition-onset temperature T c and a lower limit defined 
by an effectively-zero-bulk-resistivity intercept temperature Tp= 0 , the 
transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk- resistivity intercept 
temperature Tp= 0 of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 393 (Previously Presented) The superconductive apparatus according to claim 
392 in which the rare-earth or an element comprising a rare earth characteristic is 
lanthanum. 

CLAIM 394 (Previously Presented) An apparatus for causing electric-current flow in a 
superconductive state at a temperature greater than or equal to 26°K, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound comprising a crystal structure comprising a layered 
characteristic and a perovskite characteristic, the composition having a 
superconductive transition temperature T c of greater than or equal to 



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26°K, said superconductive composition includes at least one element 
selected from the group consisting of a Group II A element, a rare earth 
element; and a Group III B element; 

(b) a temperature controller maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor 
transition temperature T c of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 395 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound comprising a crystal structure comprising a layered 
characteristic and a perovskite characteristic, the copper-oxide compound 
including at least one element selected from the group consisting of a 
Group II A element, a rare earth element and a Group III B element, the 
composition having a superconductive/resistive transition defining a 
superconductive/resistive-transition temperature range between an upper 
limit defined by a transition-onset temperature T c and a lower limit defined 
by an effectively-zero-bulk-resistivity intercept temperature Tp= 0 , the 
transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk- resistivity intercept 
temperature T p=0 of the superconductive composition; and 



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(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 396 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound comprising a crystal structure comprising a layered 
characteristic and a perovskite characteristic, the composition having a 
superconductive transition temperature T c of greater than or equal to 
26°K, said superconductive composition includes at least one element 
selected from the group consisting of a Group II A element and at least 
one element selected from the group consisting of a rare earth element 
and a Group III B element; 

(b) a temperature controller maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor 
transition temperature T c of the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 397 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, 
the superconductive composition consisting essentially of a copper-oxide 
compound comprising a crystal structure comprising a layered 
characteristic and a perovskite characteristic, the copper-oxide compound 



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including at least one element selected from the group consisting of a 
Group II A element and at least one element selected from the group 
consisting of a rare earth element and a Group III B element, the 
composition having a superconductive/resistive transition defining a 
superconductive-resistive-transition temperature range between an upper 
limit defined by a transition-onset temperature T c and a lower limit defined 
by an effectively-zero-bulk-resistivity intercept temperature Tp=o , the 
transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a 
temperature below the effectively-zero-bulk- resistivity intercept 
temperature Tp=oof the superconductive composition; and 

(c) a current source causing an electric current to flow in the 
superconductor element. 

CLAIM 398 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal oxide 
compound comprising a crystal structure comprising a layered characteristic and a 
perovskite characteristic, the composition having a superconductive transition 
temperature T c of greater than or equal to 26°K, said superconductive composition 
includes an element selected from the group consisting of a Group II A element and at 
least one element selected from the group consisting of a rare earth element and a 
Group III B element; 



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(b) a temperature controller maintaining the superconductor element at a temperature 
greater than or equal to 26°K and below the superconductor transition T c of the 
superconductive composition; and 

(c) a current source causing an electric current to flow in the superconductor element. 

CLAIM 399 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal-oxide 
compound comprising a crystal structure comprising a layered characteristic and a 
perovskite characteristic, the transition metal-oxide compound including at least one 
element selected from the group consisting of a Group II A element and at least one 
element selected from the group consisting of a rare earth element and a Group NIB 
element, the composition having a superconductive/resistive transition defining a 
superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature Tp=o, the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a temperature 
below the effectively-zero-bulk- resistivity intercept temperature Tp= 0 of the 
superconductive composition; and 

(c) a current source causing an electric current to flow in the superconductor element. 

CLAIM 400 (Previously Presented) A superconductive apparatus for causing 
electric-current flow in a superconductive state at a temperature greater than or equal to 
26°K, comprising: 



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(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a crystal structure comprising a layered characteristic and a perovskite 
characteristic, the composition having a superconductive transition temperature T c of 
greater than or equal to 26°K, said superconductive composition includes a Group II A 
element, and at least one element selected from the group consisting of a rare earth 
element and a Group III B element; 

(b) a temperature controller maintaining the superconductor element at a temperature 
greater than or equal to 26°K and below the superconductor transition temperature T c 
of the superconductive composition; and 

(c) a current source causing an electric current to flow in the superconductor element. 

CLAIM 401 (Previously Presented) A superconductive apparatus for conducting an 
electric current essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a crystal structure comprising a layered characteristic and a perovskite 
characteristic, the copper-oxide compound including Group II A element, and at least 
one element selected from the group consisting of a rare earth element and a Group III 
B element, the composition having a superconductive-resistive transition defining a 
superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature Tp=o, the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller maintaining the superconductor element at a temperature 
below the effectively-zero-bulk-resistivity intercept temperature Tp=o of the 
superconductive composition; and 



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(c) a current source causing an electric current to flow in the superconductor element. 

CLAIM 402 (Previously Presented) An apparatus capable of carrying electric current 
flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a crystal structure comprising a layered characteristic and a perovskite 
characteristic, the composition comprising a superconductor transition temperature T c 
of greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 403 (Previously Presented) An apparatus according to claim 402 in which the 
copper-oxide compound of the superconductive composition includes at least one 
rare-earth or an element comprising a rare earth characteristic and at least one 
alkaline-earth element. 

CLAIM 404 (Previously Presented) An apparatus according to claim 403 in which the 
rare-earth or element comprising a rare earth characteristic is lanthanum. 

CLAIM 405 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 



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(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a layer-type perovskite-like crystal structure, the copper-oxide compound 
comprising at least one rare-earth or element comprising a rare earth characteristic and 
at least one alkaline-earth element, the composition comprising a 
superconductive/resistive transition defining a superconductive/resistive-transition 
temperature range between an upper limit defined by a transition-onset temperature T c 
and a lower limit defined by an effectively-zero-bulk-resistivity intercept temperature Tp=o 
, the transition-onset temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature T p=0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 406 (Previously Presented) An apparatus according to claim 405 in which the 
rare-earth or element comprising a rare earth characteristic is lanthanum. 

CLAIM 407 (Previously Presented) An apparatus capable of carrying an electric-current 
flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a crystal structure comprising a layered characteristic and a perovskite 
characteristic, the composition comprising a superconductive transition temperature T c 
of greater than or equal to 26°K, said superconductive composition includes at least 
one element selected from the group consisting of a Group II A element, a rare earth 
element; and a Group III B element; 



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(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 408 (Previously Presented) An apparatus capable of carrying an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a crystal structure comprising a layered characteristic and a perovskite 
characteristic, the copper-oxide compound including at least one element selected from 
the group consisting of a Group II A element, a rare earth element and a Group III B 
element, the composition comprising a superconductive/resistive transition defining a 
superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature Tp=o, the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature T p=0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 409 (Previously Presented) An apparatus capable of carrying an electric-current 
flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 



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(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a crystal structure comprising a layered characteristic and a perovskite 
characteristic, the composition comprising a superconductive transition temperature T c 
of greater than or equal to 26°K, said superconductive composition includes at least 
one element selected from the group consisting of a Group II A element and at least 
one element selected from the group consisting of a rare earth element and a Group III 
B element; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition 
temperature T c of the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 410 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a crystal structure comprising a layered characteristic and a perovskite 
characteristic, the copper-oxide compound including at least one element selected from 
the group consisting of a Group II A element and at least one element selected from the 
group consisting of a rare earth element and a Group III B element, the composition 
comprising a superconductive/resistive transition defining a 

superconductive-resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature T p=0 , the transition-onset 
temperature T c being greater than or equal to 26°K; 



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(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp= 0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 41 1 (Previously Presented) An apparatus capable of carrying an electric-current 
flow in a superconductive state at a temperature greater than or equal to 26°K, 
comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal oxide 
compound comprising a crystal structure comprising a layered characteristic and a 
perovskite characteristic, the composition comprising a superconductive transition 
temperature T c of greater than or equal to 26°K, said superconductive composition 
includes at least one element selected from the group consisting of a Group II A 
element and at least one element selected from the group consisting of a rare earth 
element and a Group III B element; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature greater than or equal to 26°K and below the superconductor transition T c of 
the superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 412 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a transition metal-oxide 
compound comprising a crystal structure comprising a layered characteristic and a 



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perovskite characteristic, the transition metal-oxide compound including at least one 
element selected from the group consisting of a Group II A element and at least one 
element selected from the group consisting of a rare earth element and a Group 1MB 
element, the composition comprising a superconductive/resistive transition defining a 
superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature Tp=o, the transition-onset 
temperature T c being greater than or equal to 26°K; 

(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature T p=0 of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 413 (Previously Presented) An apparatus for conducting an electric current 
essentially without resistive losses, comprising: 

(a) a superconductor element made of a superconductive composition, the 
superconductive composition consisting essentially of a copper-oxide compound 
comprising a crystal structure comprising a layered characteristic and a perovskite 
characteristic, the copper-oxide compound including at least one element selected from 
the group consisting of a group II A element, at least one element selected from the 
group consisting of a rare earth element and at least one element selected from the 
group consisting of a Group III B element, the composition comprising a 
superconductive-resistive transition temperature defining a 

superconductive/resistive-transition temperature range between an upper limit defined 
by a transition-onset temperature T c and a lower limit defined by an 
effectively-zero-bulk-resistivity intercept temperature Tp=o, the transition-onset 
temperature T c being greater than or equal to 26°K; 



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(b) a temperature controller for maintaining the superconductor element at a 
temperature below the effectively-zero-bulk-resistivity intercept temperature Tp=o of the 
superconductive composition; and 

(c) a source of an electric current to flow in the superconductor element. 

CLAIM 414 (New) A superconducting apparatus according to anyone of claims 361-365 
or 366, wherein said composition can be made according to known principles of 
ceramic science. 

CLAIM 415 (New) A superconducting combination according to anyone of claims 367, 
368 or 369, wherein said composition can be made according to known principles of 
ceramic science. 

CLAIM 416 (New) A superconducting apparatus according to anyone of claims 370 or 
371 , wherein said composition can be made according to known principles of ceramic 
science. 

CLAIM 417 (New) A superconducting apparatus according to claim 372, wherein said 
copper oxide can be made according to known principles of ceramic science. 

CLAIM 418 (New) A combination according to claim 373, wherein said copper oxide 
can be made according to known principles of ceramic science. 

CLAIM 419 (New) A combination according to claim 374, wherein said material can be 
made according to known principles of ceramic science. 

CLAIM 420 (New) A apparatus according to claim 375, wherein said composition can 
be made according to known principles of ceramic science. 



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CLAIM 421 (New) A combination according to claim 376, wherein said mixed copper 
oxide can be made according to known principles of ceramic science. 

CLAIM 422 (New) A combination according to anyone of claims 379 or 380, wherein 
said mixed copper oxide can be made according to known principles of ceramic 
science. 

CLAIM 423 (New) A apparatus according to claim 382, wherein said copper oxide 
material can be made according to known principles of ceramic science. 

CLAIM 424 (New) A superconductive apparatus according to anyone of claims 383, 
384, 385, 386, 387 and 389, wherein said composition can be made according to 
known principles of ceramic science. 

CLAIM 425 (New) A apparatus according to claim 388, wherein said composition can 
be made according to known principles of ceramic science. 

CLAIM 426 (New) A superconductive apparatus according to anyone of claims 389 to 
400 or 401 , wherein said superconductive composition can be made according to 
known principles of ceramic science. 

CLAIM 427 (New) A apparatus according to anyone of claims 402 to 412 or 413, 
wherein said superconductive composition can be made according to known principles 
of ceramic science. 



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