A catalyst includes a conductive carrier and catalyst particles. The catalyst particles are supported on the conductive carrier and have a composition represented by formula 1, below. An area of a peak derived from a metal bond of a T-element is 15% or more of an area of a peak derived from an oxyge
A catalyst includes a conductive carrier and catalyst particles. The catalyst particles are supported on the conductive carrier and have a composition represented by formula 1, below. An area of a peak derived from a metal bond of a T-element is 15% or more of an area of a peak derived from an oxygen bond of the T-element in a spectrum obtained by X-ray photoelectron spectroscopic method. PtxRuyTz (1) where the T-element is at least one element selected from the group consisting of V, Nb and Hf, x is 30 to 60 at. %, y is 20 to 50 at. % and z is 5 to 50 at. %.
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What is claimed is: 1. A catalyst having a composition represented by the following formula (3), satisfying the following equations (4) and (5) in X-ray photoelectron spectrometry (XPS), and having a peak derived from a metal bond of a T1 element which is shown in an XPS spectrum: PtxRuyT1aX1b
What is claimed is: 1. A catalyst having a composition represented by the following formula (3), satisfying the following equations (4) and (5) in X-ray photoelectron spectrometry (XPS), and having a peak derived from a metal bond of a T1 element which is shown in an XPS spectrum: PtxRuyT1aX1b (3) wherein the T1 element is at least one element selected from the group consisting of V, W and Mo, an X1 element is at least one element selected from the group consisting of Nb, Cr, Zr and Ti, x is 20 to 70 at. %, y is 10 to 50 at. %, a is 1 to 30 at. % and b is 0.5 to 20 at. %; 0≦(CoxygenT1/CmetalT1)≦4 (4) 0≦(CmetalX1/CoxygenX1)≦2 (5) wherein CoxygenT1 is an amount of the Ti element having an oxygen bond which is obtained by the XPS spectrum, CmetalT1 is an amount of the T1 element having a metal bond which is obtained by the XPS spectrum, CmetalX1 is an amount of the X1 element having a metal bond which is obtained by the XPS spectrum, and CoxygenX1 is an amount of the X1 element having an oxygen bond which is obtained by the XPS spectrum. 2. The catalyst according to claim 1, comprising oxygen atoms bound with the X1 element. 3. A method of manufacturing the catalyst according to claim 1, the method comprising forming the catalyst on a conductive carrier which is kept at 400° C. or less, by a sputtering method or a deposition method. 4. An membrane electrode assembly comprising: a cathode; an anode comprising the catalyst according to claim 1; and a proton conductive membrane provided between the cathode and the anode. 5. The catalyst of claim 1, wherein 0≦(CoxygenT1/CmetalT1)≦2. 6. The catalyst of claim 1, wherein 0≦(CmetalX1/CoxygenX1)≦1. 7. The catalyst of claim 1, wherein 0≦(CoxygenT1/CmetalT1)≦2, and wherein 0≦(CmetalX1/CoxygenX1)≦1. 8. The catalyst of claim 1, wherein a is 2 to 20 at. %. 9. The catalyst of claim 1, wherein b is 1 to 15 at. %. 10. The catalyst of claim 1, wherein a is 2 to 20 at. %, and wherein b is 1 to 15 at. %. 11. The catalyst of claim 1, wherein the catalyst is in the form of nano-particles, and wherein the nano-particles have an average particle diameter of 10 nm or less. 12. The catalyst of claim 1, wherein the catalyst is in the form of nano-particles, and wherein the nano-particles have an average particle diameter of from 0.5 to 10 nm. 13. The catalyst of claim 1, wherein 0≦(CoxygenT1/CmetalT1)≦2, wherein 0≦(CmetalX1/CoxygenX1)≦1, wherein a is 2 to 20 at. %, and wherein b is 1 to 15 at. %. 14. A catalyst having a composition represented by the following formula (6), satisfying the following equations (4) and (7) in X-ray photoelectron spectrometry (XPS), and having a peak derived from a metal bond of a T1 element which is shown in an XPS spectrum: PtxRuyT1aX2cA1d (6) wherein the TI element is at least one element selected from the group consisting of V, W and Mo, an X2 element is at least one element selected from the group consisting of Nb, Cr, Zr, Ta and Ti, an A1 element is at least one element selected from the group consisting of Sn, Hf, Ni, Rh, Os and Ir, x is 20 to 70 at. %, y is 10 to 50 at. %, a is 1 to 30 at. %, c is 0.5 to 20 at. %, and d is 0.5 to 30 at. %; 0≦(CoxygenT1/CmetalT1)≦4 (4) 0≦(CmetalX2/CoxygenX2)≦2 (7) wherein CoxygenT1 is an amount of the T1 element having an oxygen bond which is obtained by the XPS spectrum, CmetalT1 is an amount of the T1 element having a metal bond which is obtained by the XPS spectrum, CmetalX2 is an amount of the X2 element having a metal bond which is obtained by the XPS spectrum, and CoxygenX2 is an amount of the X2 element having an oxygen bond which is obtained by the XPS spectrum. 15. The catalyst according to claim 14, comprising oxygen atoms bound with the X2 element. 16. An membrane electrode assembly comprising: a cathode; an anode comprising the catalyst according to claim 14; and a proton conductive membrane provided between the cathode and the anode. 17. The catalyst of claim 14, wherein 0≦(CmetalX2/CoxygenX2)≦1. 18. The catalyst of claim 14, wherein the catalyst is in the form of nano-particles, and wherein the nano-particles have an average particle diameter of 10 nm or less. 19. The catalyst of claim 14, wherein the catalyst is in the form of nano-particles, and wherein the nano-particles have an average particle diameter of from 0.5 to 10 nm.
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