Positive electrode active material, method for producing same, and non-aqueous electrolyte secondary battery using same

The invention claimed is: 1. A method for producing a lithium nickel composite oxide for a positive electrode active material, represented by the following formula (1): Li b Ni 1-a M a O 2   (1) wherein M represents a minor component of at least one element selected from the group consisting of a transition metal element other than Ni, a second group element and a thirteenth group element; a satisfies 0.01≦a≦0.5; and b satisfies 0.9≦b≦1.1, comprising the following steps (a) to (c): (a) preparing a nickel compound selected from a nickel hydroxide, a nickel oxyhydroxide or a nickel oxide, by either method for preparing the nickel hydroxide or the nickel oxyhydroxide containing nickel as a main component, and at least one element selected from the group consisting of the transition metal elements other than Ni, the second group elements and the thirteenth group elements, as a minor component; or by method for preparing a nickel oxide by subsequently roasting the resultant nickel hydroxide or the nickel oxyhydroxide; (b) mixing the nickel compound and a lithium compound so that the amount of lithium in the lithium compound becomes 1.00 to 1.15 in molar ratio, relative to the total amount of nickel and the minor component in the nickel compound, and then firing the mixture under oxygen atmosphere in a range of a maximum temperature of 650 to 850° C.; (c) drying in two stages, in obtaining the lithium nickel composite oxide by filtering and drying, after water washing the fired substance obtained in the step (b), where a first stage drying is performed at equal to or lower than 90° C., until moisture content measured at a vaporization temperature of 300° C. in the lithium nickel composite oxide is reduced to equal to or lower that 1% by mass, and wherein a second stage drying is performed at equal to or higher than 120° C.; wherein, in the step (c), the first stage drying and the second stage drying are performed under vacuum atmosphere. 2. The method for producing the lithium nickel composite oxide for the positive electrode active material according to claim 1 , wherein the nickel hydroxide described in the above (a) is prepared by dropping an aqueous solution of a metal compound which contains nickel as a main component, and at least one element selected from the group consisting of the transition metal element other than nickel, the second group element and the thirteenth group element as a minor component; and an aqueous solution which contains an ammonium ion supplying substance, into a reaction chamber warmed, wherein an aqueous solution of an alkali metal hydroxide, in an amount sufficient to maintain a reaction solution in an alkaline state, is dropped optionally, as appropriate. 3. The method for producing the lithium nickel composite oxide for the positive electrode active material according to claim 1 , wherein the nickel oxyhydroxide described in the above (a) is prepared by dropping an aqueous solution of a metal compound which contains nickel as a main component, and at least one element selected from the group consisting of the transition metal element other than Ni, the second group element and the thirteenth group element as a minor component; and an aqueous solution which contains an ammonium ion supplying substance, into a reaction chamber warmed, wherein an aqueous solution of an alkali metal hydroxide, in an amount sufficient to maintain a reaction solution in an alkaline state, is dropped optionally, as appropriate, and subsequently by further adding an oxidizing agent. 4. The method for producing the lithium nickel composite oxide for the positive electrode active material according to claim 1 , wherein the nickel oxide described in the above (a) is prepared by roasting nickel hydroxide or nickel oxyhydroxide under air atmosphere at a temperature of 600 to 1100° C. 5. The method for producing the lithium nickel composite oxide for the positive electrode active material according to claim 1 , wherein the lithium compound is at least one kind selected from the group consisting of a hydroxide, an oxyhydroxide, an oxide, a carbonate salt, a nitrate salt and a halide of lithium. 6. A lithium nickel composite oxide for a positive electrode active material, is obtained by the production method according to claim 1 . 7. A non-aqueous electrolyte secondary battery, characterized by using the lithium nickel composite oxide for the positive electrode active material according to claim 6 . 8. The method for producing the lithium nickel composite oxide for the positive electrode active material according to claim 1 , wherein a second stage drying is performed at equal to or higher than 120° C., until moisture content measure at a vaporization temperature of 300° C. in the lithium nickel composite oxide is reduced to equal to or lower than 0.2% by mass.