Nonaqueous electrolyte secondary battery positive electrode active material and method for manufacturing same, and nonaqueous electrolyte secondary battery

The invention claimed is: 1. A method for manufacturing a nonaqueous electrolyte secondary battery positive electrode active material formed of lithium-manganese-nickel complex oxide, the method comprising: a crystallization step of crystallizing manganese-nickel complex hydroxide from a mixed solution of manganese chloride and nickel chloride by adding the mixed solution and an alkali aqueous solution simultaneously and continuously into a reaction tank wherein pH for the crystallization step is maintained in a range of 10.5 or more to 12.5 or less; a calcination step of mixing the manganese-nickel complex hydroxide obtained and a lithium compound and calcining the mixture at 800° C. or higher and 1000° C. or lower to obtain lithium-manganese-nickel complex oxide; and a recalcination step of recalcining the lithium-manganese-nickel complex oxide obtained at 500° C. or higher and 800° C. or lower for 5 hours or longer and 40 hours or shorter. 2. The method for manufacturing a nonaqueous electrolyte secondary battery positive electrode active material formed of lithium-manganese-nickel complex oxide according to claim 1 , wherein the alkali aqueous solution is sodium hydroxide. 3. The method for manufacturing a nonaqueous electrolyte secondary battery positive electrode active material formed of lithium-manganese-nickel complex oxide according to claim 1 , wherein temperature of the reaction tank for the crystallization step is maintained in a range of 30° C. or higher to 80° C. or lower. 4. The method for manufacturing a nonaqueous electrolyte secondary battery positive electrode active material formed of lithium-manganese-nickel complex oxide according to claim 1 , wherein the mixed solution of manganese chloride and nickel chloride are prepared by dissolving nickel chloride and manganese chloride in pure water and ammonia water. 5. A method for manufacturing a nonaqueous electrolyte secondary battery positive electrode active material formed of lithium-manganese-nickel complex oxide, the method comprising: a crystallization step of crystallizing manganese-nickel complex hydroxide from a mixed solution of manganese chloride and nickel chloride by adding the mixed solution and an alkali aqueous solution simultaneously and continuously into a reaction tank; a calcination step of mixing the manganese-nickel complex hydroxide obtained and a lithium compound and calcining the mixture at 800° C. or higher and 1000° C. or lower to obtain lithium-manganese-nickel complex oxide; and a recalcination step of recalcining the lithium-manganese-nickel complex oxide obtained at 500° C. or higher and 800° C. or lower for 5 hours or longer and 40 hours or shorter; wherein the ratio of Mn and Ni (Mn:Ni) contained in the manganese-nickel complex hydroxide is in the range of 0.8:0.2 to 0.7:0.3, and wherein pH for the crystallization step is maintained in a range of 10.5 or more to 12.5 or less. 6. The method for manufacturing a nonaqueous electrolyte secondary battery positive electrode active material formed of lithium-manganese-nickel complex oxide according to claim 5 , wherein temperature of the reaction tank for the crystallization step is maintained in a range of 30° C. or higher to 80° C. or lower. 7. The method for manufacturing a nonaqueous electrolyte secondary battery positive electrode active material formed of lithium-manganese-nickel complex oxide according to claim 5 , wherein the mixed solution of manganese chloride and nickel chloride are prepared by dissolving nickel chloride and manganese chloride in pure water and ammonia water.