Positive electrode active material for lithium secondary cell

The invention claimed is: 1. A positive electrode active material for a lithium secondary cell, comprising a particle having a surface portion where one or a combination of two or more (these are referred to as “surface element A”) of the group consisting of Al, Ti and Zr is present, on a surface of a particle comprising a lithium metal composite oxide having a layer crystal structure and represented by the general formula: Li 1+x M 1−x O 2 , wherein x=0 to 0.07 and M is one or a combination of two or more (referred to as “constituent element M”) of the group consisting of Mn, Co, Ni, transition elements in the third group elements through and including the 11th group elements of the periodic table, and elements in the first period through and including the third period of the periodic table, wherein a ratio (C A /C M ) of a concentration (at %) (referred to as “C A ”; in the case where the surface element A contains two or more elements, the total concentration) of the surface element A to a concentration (at %) (referred to as “C M ”; in the case where the constituent element M contains two or more elements, the total concentration) of the constituent element M is higher than 0 and lower than 0.8, as measured by X-ray photoelectron spectroscopy (XPS); an amount of surface lithium impurity is smaller than 0.40% by weight; and in an X-ray diffraction pattern measured by a powder X-ray diffractometer (XRD) using CuKα1 radiation, a ratio (003)/(104) of an integral intensity of a peak originated from the (003) plane to an integral intensity of a peak originated from the (104) plane is higher than 1.15. 2. The positive electrode active material for a lithium secondary cell according to claim 1 , wherein a ratio (C A /C Ni ) of a concentration (at %) (referred to as “C A ”; in the case where the surface element A contains two or more elements, the total concentration) of the surface element A to a concentration (at %) (referred to as “C Ni ”) of a constituent element Ni is higher than 0 and lower than 2.0, as measured by X-ray photoelectron spectroscopy (XPS). 3. The positive electrode active material for a lithium secondary cell according to claim 2 , wherein a concentration (at %) (referred to as “C M ”; in the case where the constituent element M contains two or more elements, the total concentration) of the constituent element M is higher than 0 at % and lower than 30 at %; a concentration (at %) (referred to as “C A ”; in the case where the surface element A contains two or more elements, the total concentration) of the surface element A is higher than 0 at % and lower than 10 at %; and a concentration (at %) (referred to as “C Ni ”) of a constituent element Ni is higher than 0 at % and lower than 25 at %, as measured by X-ray photoelectron spectroscopy (XPS). 4. The positive electrode active material for a lithium secondary cell according to claim 2 , wherein a powder resistance measured by a powder resistance measuring instrument when a pressure of 2 kN is applied is 4,500Ω or lower. 5. A lithium secondary cell, comprising a positive electrode active material for a lithium secondary cell according to claim 2 , as a positive electrode active material. 6. A lithium secondary cell for a hybrid electric vehicle or an electric vehicle, comprising a positive electrode active material for a lithium secondary cell according to claim 2 , as a positive electrode active material. 7. The positive electrode active material for a lithium secondary cell according to claim 1 , wherein a concentration (at %) (referred to as “C M ”; in the case where the constituent element M contains two or more elements, the total concentration) of the constituent element M is higher than 0 at % and lower than 30 at %; a concentration (at %) (referred to as “C A ”; in the case where the surface element A contains two or more elements, the total concentration) of the surface element A is higher than 0 at % and lower than 10 at %; and a concentration (at %) (referred to as “C Ni ”) of a constituent element Ni is higher than 0 at % and lower than 25 at %, as measured by X-ray photoelectron spectroscopy (XPS). 8. The positive electrode active material for a lithium secondary cell according to claim 7 , wherein a powder resistance measured by a powder resistance measuring instrument when a pressure of 2 kN is applied is 4,500Ω or lower. 9. A lithium secondary cell, comprising a positive electrode active material for a lithium secondary cell according to claim 7 , as a positive electrode active material. 10. A lithium secondary cell for a hybrid electric vehicle or an electric vehicle, comprising a positive electrode active material for a lithium secondary cell according to claim 7 , as a positive electrode active material. 11. The positive electrode active material for a lithium secondary cell according to claim 1 , wherein a powder resistance measured by a powder resistance measuring instrument when a pressure of 2 kN is applied is 4,500Ω or lower. 12. A lithium secondary cell, comprising a positive electrode active material for a lithium secondary cell according to claim 11 , as a positive electrode active material. 13. A lithium secondary cell for a hybrid electric vehicle or an electric vehicle, comprising a positive electrode active material for a lithium secondary cell according to claim 11 , as a positive electrode active material. 14. A lithium secondary cell, comprising a positive electrode active material for a lithium secondary cell according to claim 1 , as a positive electrode active material. 15. A lithium secondary cell for a hybrid electric vehicle or an electric vehicle, comprising a positive electrode active material for a lithium secondary cell according to claim 1 , as a positive electrode active material. 16. The positive electrode active material for a lithium secondary cell according to claim 1 , wherein in the general formula Li 1+x M 1−x O 2 , x=0.01 or more to 0.07 or less. 17. The positive electrode active material for a lithium secondary cell according to claim 1 , wherein in the general formula Li 1+x M 1−x O 2 , x=0.02 or more to 0.06 or less.