Core-shell catalyst for oxygen reduction reaction, and method of designing catalyst

What is claimed is: 1. A catalyst for an oxygen reduction reaction, comprising catalyst particles having a core-shell structure containing a PtCo alloy as a core, and platinum as a shell layer, wherein a plurality of platinum atoms contained in the shell layer form a (111) plane of a face-centered cubic lattice, a lattice constant of the (111) plane of the face-centered cubic lattice on a surface of the catalyst particle is 3.70 Å or more and 4.05 Å or less, and a lattice constant of a (111) plane of the face-centered cubic lattice formed by platinum atoms present inside the catalyst particles is smaller than a lattice constant of a (111) plane of the face-centered cubic lattice on a surface of the catalyst particle. 2. The catalyst according to claim 1 , wherein a lattice constant of a (111) plane of the face-centered cubic lattice formed by platinum atoms present inside the catalyst particles is 3.55 Å or more and 3.95 Å or less. 3. The catalyst according to claim 1 , wherein the PtCo alloy contained in the core is PtCo x , wherein 0.14≤x≤0.33. 4. A catalyst for an oxygen reduction reaction, comprising catalyst particles having a core-shell structure containing a PtCoMn alloy as a core, and platinum as a shell layer, wherein a plurality of platinum atoms contained in the shell layer form a (111) plane of a face-centered cubic lattice, a lattice constant of the (111) plane of the face-centered cubic lattice on a surface of the catalyst particles is 3.870 Å or more and 4.10 Å or less, and a lattice constant of a (111) plane of the face-centered cubic lattice formed by platinum atoms present inside the catalyst particles is smaller than a lattice constant of a (111) plane of the face-centered cubic lattice on the surface of the catalyst particles. 5. The catalyst according to claim 4 , wherein a lattice constant of a (111) plane of the face-centered cubic lattice formed by platinum atoms present inside the catalyst particles is 3.70 Å or more and 4.05 Å or less. 6. The catalyst according to claim 4 , wherein the PtCoMn alloy contained in the core is PtCo y Mn z , wherein 0.06≤y≤0.39 and 0.04≤z≤0.33. 7. The catalyst according to claim 1 , wherein an absolute value of an adsorption energy in an adsorption site having a maximum oxygen atom adsorption energy is less than 1.0 eV. 8. The catalyst according to claim 1 , wherein an absolute value of an adsorption energy in an adsorption site having a maximum oxygen molecule adsorption energy is less than 0.5 eV. 9. The catalyst according to claim 1 , wherein an absolute value of an adsorption energy in an adsorption site having a maximum OH group adsorption energy is less than 2.3 eV. 10. The catalyst according to claim 1 , wherein an absolute value of an adsorption energy in an adsorption site having a maximum water molecule adsorption energy is less than 0.19 eV. 11. The catalyst according to claim 1 , wherein the catalyst particle is supported on a carbon fine powder carrier. 12. The catalyst according to claim 1 for use in a polymer electrolyte fuel cell, wherein a supporting density of the catalyst particles in the entire catalyst is 20 to 70% by mass. 13. The catalyst according to claim 2 , wherein the PtCo alloy contained in the core is PtCo x , wherein 0.14≤x≤0.33.