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

The invention claimed is: 1. A method for producing a positive electrode active material for a nonaqueous electrolyte secondary battery comprising a lithium nickel composite oxide represented by composition formula (1): Li b Ni 1−a M1 a O 2 , where M1 represents at least one kind of element selected from transition metal elements other than Ni, group 2 elements, and group 13 elements, 0.01≤a≤0.5, and 0.85≤b≤1.05, and having a specific surface area in a range of 0.5 m 2 /g to 2.05 m 2 /g and a carbon content of 0.08% by mass or less with respect to a total amount of the lithium nickel composite oxide; the method comprising: (i) a step of preparing a fired powder of the lithium nickel composite oxide by mixing a nickel composite compound selected from among nickel composite hydroxide, nickel oxy composite hydroxide, and nickel composite oxide, and having nickel as a main component and at least one kind of element selected from transition metal elements other than nickel, group 2 elements, and group 13 elements as a subcomponent, with a lithium compound, and then firing a mixture thereof in an oxygen atmosphere under firing conditions where a maximum temperature is in a range of 650° C. to 850° C., the lithium nickel composite oxide being represented by composition formula (3): Li b Ni 1−a M1 a O 2 , where M1 represents at least one kind of element selected from transition metal elements other than Ni, group 2 elements, and group 13 elements, 0.01≤a≤0.5, and 0.85≤b≤1.05; and (ii) a step of preparing a powder of the lithium nickel composite oxide by performing a water washing process of the fired powder with spraying the fired powder with water in a temperature range of 10° C. to 40° C., until an electric conductivity of filtrate is in a range of 30 S/cm to 60 mS/cm, to make a fired powder slurry, then performing filtration of the fired powder slurry until a moisture content of adhered water remaining on a particle surface of the fired powder after washing is 10% by mass or less, to obtain a filtered powder, and performing drying of the filtered powder. 2. The method for producing a positive electrode active material for a nonaqueous electrolyte secondary battery according to claim 1 , wherein, in the step (ii), the fired powder slurry has a slurry concentration in a range of 500 g/L to 3000 g/L. 3. The method for producing a positive electrode active material for a nonaqueous electrolyte secondary battery according to claim 1 , wherein, in the step (ii), drying of the filtered powder is performed in a gas atmosphere that does not include a compound component including carbon or a vacuum atmosphere. 4. The method for producing a positive electrode active material for a nonaqueous electrolyte secondary battery according to claim 1 , wherein the nickel composite hydroxide is prepared by dripping an aqueous solution including a nickel compound as a main component and a compound of at least one kind of element selected from transition metal elements other than nickel, group 2 elements, and group 13 elements as a subcomponent, and an aqueous solution including an ammonium ion supplier into a heated reaction tank; and at that time, dripping an aqueous solution of an alkali metal hydroxide in an amount capable of maintaining an alkalinity of a reaction solution. 5. The method for producing a positive electrode active material for a nonaqueous electrolyte secondary battery according to claim 1 , wherein the nickel oxy composite hydroxide is prepared by dripping an aqueous solution including a nickel compound as a main component and a compound of at least one kind of element selected from transition metal elements other than nickel, group 2 elements, and group 13 elements as a subcomponent, and an aqueous solution including an ammonium ion supplier into a heated reaction tank; and at that time, dripping an aqueous solution of an alkali metal hydroxide in an amount capable of maintaining an alkalinity of a reaction solution, and continuing to further add an oxidizing agent. 6. The method for producing a positive electrode active material for a nonaqueous electrolyte secondary battery according to claim 1 , wherein the nickel composite oxide is obtained by roasting the nickel composite hydroxide or the nickel oxy composite hydroxide. 7. The method for producing a positive electrode active material for a nonaqueous electrolyte secondary battery according to claim 1 , wherein at least one kind selected from a group including lithium hydroxide, lithium oxyhydroxide, lithium oxide, lithium carbonate, lithium nitrate, and lithium halide is used as the lithium compound. 8. The method for producing a positive electrode active material for a nonaqueous electrolyte secondary battery according to claim 1 , wherein in the step (i), a mixing ratio of the nickel composite compound and the lithium compound is adjusted so that a molar ratio of a molar amount of lithium in the lithium compound with respect to a total molar amount of nickel, transition metal element other than nickel, group 2 element, and group 13 element in the nickel composite compound is in a range of 0.95 to 1.13.