Positive electrode active material including lithium cobaltate coated with lithium titanate and magnesium oxide

1 . A lithium-ion secondary battery comprising a positive electrode active material, wherein the positive electrode active material comprises a composite oxide containing lithium and cobalt, wherein the positive electrode active material comprises a crystal defect observed from a TEM image, and wherein the positive electrode active material comprises a representative element in the crystal defect or in a vicinity of the crystal defect. 2 . A lithium-ion secondary battery comprising a positive electrode active material, wherein the positive electrode active material comprises a composite oxide containing lithium and cobalt, wherein the positive electrode active material comprises a crystal defect observed from a TEM image, and wherein the positive electrode active material comprises a representative element in a superficial portion of the positive electrode active material and a representative element in the crystal defect or in a vicinity of the crystal defect. 3 . A lithium-ion secondary battery comprising a positive electrode active material, wherein the positive electrode active material comprises a composite oxide containing lithium and cobalt, wherein the positive electrode active material comprises a grain boundary observed from a TEM image, and wherein the positive electrode active material comprises a representative element in the grain boundary or in a vicinity of the grain boundary. 4 . A lithium-ion secondary battery comprising a positive electrode active material, wherein the positive electrode active material comprises a composite oxide containing lithium and cobalt, wherein the positive electrode active material comprises a grain boundary observed from a TEM image, and wherein the positive electrode active material comprises a representative element in a superficial portion of the positive electrode active material and a representative element in the grain boundary or in a vicinity of the grain boundary. 5 . A lithium-ion secondary battery comprising a positive electrode active material, wherein the positive electrode active material comprises a composite oxide containing lithium and cobalt, wherein the positive electrode active material comprises a crack portion observed from a TEM image, and wherein the positive electrode active material comprises a representative element in the crack portion or in a vicinity of the crack portion. 6 . A lithium-ion secondary battery comprising a positive electrode active material, wherein the positive electrode active material comprises a composite oxide containing lithium and cobalt, wherein the positive electrode active material comprises a crack portion observed from a TEM image, and wherein the positive electrode active material comprises a representative element in a superficial portion of the positive electrode active material and a representative element in the crack portion or in a vicinity of the crack portion. 7 . The lithium-ion secondary battery according to claim 1 , wherein the representative element is magnesium. 8 . The lithium-ion secondary battery according to claim 2 , wherein the representative element is magnesium. 9 . The lithium-ion secondary battery according to claim 3 , wherein the representative element is magnesium. 10 . The lithium-ion secondary battery according to claim 4 , wherein the representative element is magnesium. 11 . The lithium-ion secondary battery according to claim 5 , wherein the representative element is magnesium. 12 . The lithium-ion secondary battery according to claim 6 , wherein the representative element is magnesium. 13 . The lithium-ion secondary battery according to claim 11 , wherein an atomic ratio of magnesium to cobalt in the crack portion or in the vicinity of the crack portion measured by a TEM-EDX point analysis is between 0 and 0.22. 14 . The lithium-ion secondary battery according to claim 12 , wherein an atomic ratio of magnesium to cobalt in the crack portion or in the vicinity of the crack portion measured by a TEM-EDX point analysis is between 0 and 0.22. 15 . The lithium-ion secondary battery according to claim 1 , wherein the positive electrode active material comprises titanium in the crystal defect or in the vicinity of the crystal defect. 16 . The lithium-ion secondary battery according to claim 2 , wherein the positive electrode active material comprises titanium in the crystal defect or in the vicinity of the crystal defect. 17 . The lithium-ion secondary battery according to claim 3 , wherein the positive electrode active material comprises titanium in the grain boundary or in the vicinity of the grain boundary. 18 . The lithium-ion secondary battery according to claim 4 , wherein the positive electrode active material comprises titanium in the grain boundary or in the vicinity of the grain boundary. 19 . The lithium-ion secondary battery according to claim 5 , wherein the positive electrode active material comprises titanium in the crack portion or in the vicinity of the crack portion. 20 . The lithium-ion secondary battery according to claim 6 , wherein the positive electrode active material comprises titanium in the crack portion or in the vicinity of the crack portion. 21 . The lithium-ion secondary battery according to claim 19 , wherein an atomic ratio of titanium to cobalt in the crack portion or in the vicinity of the crack portion measured by a TEM-EDX point analysis is greater than or equal to 0.05. 22 . The lithium-ion secondary battery according to claim 20 , wherein an atomic ratio of titanium to cobalt in the crack portion or in the vicinity of the crack portion measured by a TEM-EDX point analysis is greater than or equal to 0.05. 23 . The lithium-ion secondary battery according to claim 2 , wherein a relative value of a concentration of the representative element is greater than or equal to 0.4 and less than or equal to 1.5 when a surface of the positive electrode active material is subjected to an XPS analysis and a concentration of cobalt is defined as 1. 24 . The lithium-ion secondary battery according to claim 4 , wherein a relative value of a concentration of the representative element is greater than or equal to 0.4 and less than or equal to 1.5 when a surface of the positive electrode active material is subjected to an XPS analysis and a concentration of cobalt is defined as 1. 25 . The lithium-ion secondary battery according to claim 6 , wherein a relative value of a concentration of the representative element is greater than or equal to 0.4 and less than or equal to 1.5 when a surface of the positive electrode active material is subjected to an XPS analysis and a concentration of cobalt is defined as 1. 26 . The lithium-ion secondary battery according to claim 16 , wherein a relative value of a concentration of titanium is greater than or equal to 0.05 and less than or equal to 0.4 when a surface of the positive electrode active material is subjected to an XPS analysis and a concentration of cobalt is defined as 1. 27 . The lithium-ion secondary battery according to claim 18 , wherein a relative value of a concentration of titanium is greater than or equal to 0.05 and less than or equal to 0.4 when a surface of the positive electrode active material is subjected to an XPS analysis and a concentration of cobalt is def