Positive electrode active material for secondary battery, method for producing same and secondary battery

The invention claimed is: 1. A positive electrode active material for a secondary battery, comprising: (a) a surface layer comprising a lithium metal composite oxide having a spinel crystal structure represented by space group Fd-3m, and (b) an internal portion comprising a lithium metal composite oxide having a spinel crystal structure represented by space group P4 3 32. 2. The positive electrode active material for a secondary battery according to claim 1 , wherein (a) the surface layer comprises a lithium metal composite oxide having a crystal structure represented by space group Fd-3m and represented by formula (1): Li a1 (M1 x1 Mn 2−x1−y1 Y1 y1 )O 4   (1) wherein, 0.4≤x1≤1.2, 0y1≤1, x1+y1<2, 0≤a1≤1.2; M1 comprises at least one selected from the group consisting of Co, Ni, Fe, Cr and Cu; Y1 is at least one selected from the group consisting of Li, B, Na, Al, Mg, Ti, Si, K and Ca; and (b) the internal portion comprises a lithium metal composite oxide having a crystal structure represented by space group P4 3 32 and represented by formula (2): Li a2 (M2 x2 Mn 2−x2−y2 Y2 y2 )O 4   (2) wherein, 0.4≤x2≤1.2, 0≤y2≤1, x2+y2<2, 0≤a2≤1.2; and M2 comprises at least one selected from the group consisting of Co, Ni, Fe, Cr and Cu; Y2 is at least one selected from the group consisting of Li, B, Na, Al, Mg, Ti, Si, K and Ca. 3. The positive electrode active material for a secondary battery according to claim 1 , wherein the surface layer having a crystal structure of Fd-3m has a thickness in a range of 1 nm of more and 1 μm or less. 4. The positive electrode active material for a secondary battery according to claim 2 , wherein in the general formula (1), M1 comprises at least Ni. 5. The positive electrode active material for a secondary battery according to claim 2 , wherein in the general formula (2), M2 comprises at least Ni. 6. The positive electrode active material for a secondary battery according to claim 2 , wherein in the general formula (1), 0.45<x1<0.8 is satisfied. 7. The positive electrode active material for a secondary battery according to claim 2 , wherein in the general formula (2), 0.45<x2<0.55 is satisfied. 8. The positive electrode active material for a secondary battery according to claim 2 , wherein in the general formula (1), 0≤y1≤0.3 is satisfied. 9. The positive electrode active material for a secondary battery according to claim 2 , wherein in the general formula (2), 0≤y2≤0.3 is satisfied. 10. A positive electrode comprising the positive electrode active material for a secondary battery according to claim 1 . 11. A secondary battery comprising the positive electrode according to claim 10 . 12. A process for producing a positive electrode active material for a secondary battery, comprising the steps of: (A) forming a particle comprising a lithium metal composite oxide having a spinel crystal structure represented by space group of P4 3 32; and (B) on the surface of the particles, forming a surface layer comprising a lithium metal composite oxide having a spinel crystal structure represented by space group Fd-3m. 13. The process for producing a positive electrode active material for a secondary battery according to claim 12 , wherein the particle forming step (A) comprises forming a particle comprising a lithium metal composite oxide having a crystal structure represented by space group P4 3 32 and represented by formula (2): Li a2 (M2 x2 Mn 2−x2−y2 Y2 y2 )O 4   (2) wherein, 0.4≤x2≤1.2, 0≤y2≤1, x2+y2<2, 0≤a2≤1.2; and M2 comprises at least one selected from the group consisting of Co, Ni, Fe, Cr and Cu; Y2 is at least one selected from the group consisting of Li, B, Na, Al, Mg, Ti, Si, K and Ca; and the surface layer forming step (B) comprises forming on a surface of the particle a surface layer comprising a lithium metal composite oxide having a crystal structure represented by space group Fd-3m and represented by formula (1): Li a1 (M1 x1 Mn 2−x1−y1 Y1 y1 )O 4   (1) wherein, 0.4≤x1≤1.2, 0≤y1≤1, x1+y1<2, 0≤a1≤1.2; M1 comprises at least one selected from the group consisting of Co, Ni, Fe, Cr and Cu; Y1 is at least one selected from the group consisting of Li, B, Na, Al, Mg, Ti, Si, K and Ca. 14. The process for producing a positive electrode active material for a secondary battery according to claim 13 , comprising: in the step (A), forming the particle comprising the lithium metal composite oxide, and thereafter, in the step (B), to the particle prepared in the step (A), adhering solution, dispersion or powder comprising Li, Mn, an element represented by M1 in formula (1), and if y1 is not 0 an element represented by Y1 in formula (1), and subjecting drying and calcining. 15. The process for producing a positive electrode active material for a secondary battery according to claim 13 , wherein the surface layer having a crystal structure of Fd-3m is formed in a thickness in a range of 1 nm or more and 1 μm or less.