Lithium Metal Composite Oxide Powder

1 . A lithium metal composite oxide powder, comprising a particle having a surface portion where one or a combination of two or more (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 layered crystal structure, wherein an amount of surface LiOH measured by the following measuring method is smaller than 0.10% by weight, and an amount of surface Li 2 CO 3 measured by the following measuring method is smaller than 0.25% by weight; in an X-ray diffraction pattern obtained by X-ray diffraction using CuKα radiation, a ratio of an integral intensity of the (003) plane of the lithium metal composite oxide to that of the (104) plane thereof is higher than 1.15; and an amount of S obtained by a measurement using an inductively coupled plasma (ICP) atomic emission spectrometer is smaller than 0.10% by weight of the lithium metal composite oxide powder (100% by weight), wherein the amount of surface LiOH and the amount of surface Li 2 CO 3 are measured by a titration that is carried out according to the following procedure by reference to a Winkler method, wherein 10.0 g of a sample is dispersed in 50 ml of ion-exchanged water, immersed therein for 15 min, and thereafter filtered; and the filtrate is titrated with hydrochloric acid; and at this time, by using phenolphthalein and bromophenol blue as indicators, the amount of the surface LiOH and the amount of the surface Li 2 CO 3 are calculated based on the discoloration of the filtrate and an amount of titration at this time. 2 . The lithium metal composite oxide powder according to claim 1 , wherein a tap density (TD) thereof is higher than 2.0 g/cm 3 . 3 . The lithium metal composite oxide powder according to claim 1 , wherein the lithium metal composite oxide is a lithium metal composite oxide represented by the general formula: Li 1+x M 1−x O 2 , wherein M is one or a combination of two or more (these are referred to as “constituent element M”) of the group consisting of Mn, Co, Ni, transition elements of from the third group elements to the 11 th group elements of the periodic table, and typical elements up to the third period of the periodic table). 4 . The lithium metal composite oxide powder according to claim 3 , 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). 5 . The lithium metal composite oxide powder according to claim 4 , 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 1.0, as measured by X-ray photoelectron spectroscopy (XPS). 6 . The lithium metal composite oxide powder according to claim 4 , 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 50 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). 7 . The lithium metal composite oxide powder according to claim 1 , wherein a ratio of a crystallite size of the (003) plane of the lithium metal composite oxide to that of the (110) plane thereof is higher than 1.0 and lower than 2.5, as calculated by Scherrer's equation using an X-ray diffraction pattern obtained by X-ray diffraction using CuKα1 radiation. 8 . The lithium metal composite oxide powder according to claim 1 , wherein a ratio (referred to as “primary particle area/secondary particle area”) of a primary particle area determined by the following measuring method to a secondary particle area determined by the following measuring method from secondary particles having a size corresponding to D50 (referred to as “D50”) according to a volume-based particle size distribution obtained by a measurement by a laser diffraction scattering-type particle size distribution measuring method is 0.004 to 0.035, wherein the method of measuring the secondary particle area comprises that the lithium metal composite oxide powder is observed by an electron microscope; 5 secondary particles having a size corresponding to D50 are randomly selected; in the case where the secondary particles are spherical, lengths of the particles are taken as diameters (μm) and areas are calculated; in the case where the secondary particles are in indeterminate shapes, areas are calculated by spherical approximation; and an average value of the 5 areas are determined as a secondary particle area (μm 2 ); and wherein the method of measuring the primary particle area comprises that the lithium metal composite oxide powder is observed by an electron microscope; 5 secondary particles having a size corresponding to D50 are randomly selected; 100 primary particles are randomly selected from the selected 5 secondary particles; an average particle diameter of the primary particles is determined using image analysis software, and is taken as a diameter (μm); and an area is calculated by spherical approximation and is determined as a primary particle area (μm 2 ). 9 . The lithium metal composite oxide powder according to claim 1 , wherein an amount of surface lithium is smaller than 0.35% by weight. 10 . The lithium metal composite oxide powder according to claim 2 , wherein a ratio of a crystallite size of the (003) plane of the lithium metal composite oxide to that of the (110) plane thereof is higher than 1.0 and lower than 2.5, as calculated by Scherrer's equation using an X-ray diffraction pattern obtained by X-ray diffraction using CuKα1 radiation. 11 . The lithium metal composite oxide powder according to claim 3 , wherein a ratio of a crystallite size of the (003) plane of the lithium metal composite oxide to that of the (110) plane thereof is higher than 1.0 and lower than 2.5, as calculated by Scherrer's equation using an X-ray diffraction pattern obtained by X-ray diffraction using CuKα1 radiation. 12 . The lithium metal composite oxide powder according to claim 4 , wherein a ratio of a crystallite size of the (003) plane of the lithium metal composite oxide to that of the (110) plane thereof is higher than 1.0 and lower than 2.5, as calculated by Scherrer's equation using an X-ray diffraction pattern obtained by X-ray diffraction using CuKα1 radiation. 13 . The lithium metal composite oxide powder according to claim 5 , wherein a ratio of a crystallite size of the (003) plane of the lithium metal composite oxide to that of the (110) plane thereof is higher than 1.0 and lower than 2.5, as calculated by Scherrer's equation using an X-ray diffraction pattern obtained by X-ray diffraction using CuKα1 radiation. 14 . The lithium metal composite oxide powder according to claim 2 , wherein a ratio (referred to as “primary pa