Method of manufacturing active material particles

The invention claimed is: 1. A method of manufacturing active material particles having a shell portion comprising primary particles of a layered lithium-transition metal oxide, a hollow portion formed inside the shell portion, and a through-hole penetrating through the shell portion, the proportion of the hollow portion being equal to or greater than 23% in average of an apparent cross-sectional area of each of the active material particles, the method comprising: producing a source hydroxide by supplying ammonium ions to an aqueous solution of a transition metal compound to precipitate particles of a transition metal hydroxide from the aqueous solution, the aqueous solution containing at least one of the transition metal elements constituting a lithium-transition metal oxide; mixing the transition metal hydroxide with a lithium compound to prepare an unsintered mixture; and sintering the mixture to obtain the active material particles, wherein the step of producing a source hydroxide includes a nucleation stage of precipitating a transition metal hydroxide from the aqueous solution at pH 12 or higher and a NH 4 + concentration of less than or equal to 20 g/L, and a stage of growing nuclei of the transition metal hydroxide that have been precipitated in the nucleation stage at less than pH 12 and a NH 4 + concentration of less than or equal to 10 g/L, in the step of mixing, the unsintered mixture is allowed to contain tungsten in an amount of from 0.05 mol % to 2.0 mol % relative to the amount of other transition metal(s), and in the step of sintering, the mixture is sintered at a sintering temperature of from 750° C. to 950° C. in an air atmosphere, whereby the major axis length L 1 of the primary particles is adjusted to be L 1 ≦0.8 μm. 2. A method of manufacturing active material particles having a shell portion comprising primary particles of a layered lithium-transition metal oxide, a hollow portion formed inside the shell portion, and a through-hole penetrating through the shell portion, the proportion of the hollow portion being equal to or greater than 23% in average of an apparent cross-sectional area of each of the active material particles, the method comprising: producing a source hydroxide by supplying ammonium ions to an aqueous solution of a transition metal compound to precipitate particles of a transition metal hydroxide from the aqueous solution, the aqueous solution containing at least one of the transition metal elements constituting a lithium-transition metal oxide; mixing a lithium compound and the transition metal hydroxide to prepare an unsintered mixture; and sintering the mixture to obtain the active material particles, wherein: the step of producing a source hydroxide includes a nucleation stage of precipitating a transition metal hydroxide from the aqueous solution at pH 12 or higher and a NH 4 + concentration of less than or equal to 20 q/L, and a stage of growing nuclei of the transition metal hydroxide that have been precipitated in the nucleation stage at less than pH 12 and a NH 4 + concentration of less than or equal to 10 g/L, in the step of producing a source hydroxide, an aqueous solution of a transition metal compound containing tungsten is produced, and a transition metal hydroxide containing tungsten is obtained as particles of the transition metal hydroxide, and the transition metal hydroxide is allowed to contain tungsten in an amount of from 0.05 mol % to 2.0 mol % with respect to the amount of other transition metal(s), and in the step of sintering, the mixture is sintered at a sintering temperature of from 750° C. to 950° C. in an air atmosphere, whereby the major axis length L 1 of the primary particles is adjusted to be L 1 ≦0.8 μm. 3. The method of manufacturing active material particles according to claim 2 , wherein: in the step of producing a source hydroxide, an aqueous solution Aq A containing at least one element of Ni, Co, and Mn, and an aqueous solution Aq c containing tungsten are prepared; and the aqueous solution Aq A and the aqueous solution Aq C are mixed under an alkaline condition to produce the aqueous solution of a transition metal compound containing tungsten. 4. The method of manufacturing active material particles according to claim 1 , wherein the lithium compound is lithium carbonate.