Positive electrode active material for secondary batteries with nonaqueous electrolytic solution, process for the production of the active material, and secondary batteries with nonaqueous electrolytic solution

The invention claimed is: 1. Positive electrode active substance particles for lithium ion batteries, comprising lithium manganate particles comprising (i) a lithium manganate and also separately (ii) a crystal plane growth inhibitor, wherein the lithium manganate comprises Li and Mn as main components and having a cubic spinel structure with a space group: Fd-3m, the lithium manganate is represented by a formula of LiMn 2 O 4 , and a portion of Mn within the lithium manganate may be substituted with another metal element of one or more anions selected from the group consisting of Li, Fe, Mn, Ni, Mg, Zn, Al, Co, Cr, Si, Ti, Sn, V and Sb, the crystal plane growth inhibitor comprises Al and/or P, primary particles of the positive electrode active substance have a dodecahedral or higher-polyhedral shape in which none of crystal planes equivalent to a plane are located adjacent to each other, and flat crystal planes are crossed with each other to form a clear ridge, and an average primary particle diameter of the primary particles is not less than 1 μm and not more than 20 μm. 2. Positive electrode active substance particles for lithium ion batteries according to claim 1 , wherein a ratio of Li to a sum of Mn and a substituting metal element Li/(Mn+substituting metal element) in which the substituting metal element is at least one metal element other than Li and Mn with which an Mn (16d) site is substituted in the positive electrode active substance is not less than 0.5. 3. A process for producing the positive electrode active substance particles as defined in claim 1 , comprising the steps of mixing a manganese compound, a lithium compound and a crystal plane growth inhibitor with each other; and calcining the resulting mixture at a temperature of 800 to 1050° C. 4. A process for producing the positive electrode active substance particles according to claim 3 , wherein the manganese compound is in the form of secondary particles obtained by aggregating primary particles of Mn 3 O 4 having a generally octahedral shape which is defined by any of an octahedral shape close to a regular octahedral shape in which flat crystal planes are crossed with each other to form a clear ridge; a near-octahedral shape in which a portion at which four planes of an octahedron are crossed with each other forms not a complete apex but a plane or a ridge; a near-octahedral shape in which a portion at which two planes of an octahedron are crossed with each other forms not a complete ridge but a plane; and a near-octahedral shape which is formed by lacking a portion of these shapes. 5. A process for producing the positive electrode active substance particles according to claim 3 , wherein the crystal plane growth inhibitor is a phosphorus compound and/or an aluminum compound. 6. A non-aqueous electrolyte secondary battery comprising the positive electrode active substance particles as defined in claim 1 . 7. Positive electrode active substance particles for lithium ion batteries according to claim 1 , wherein a content of the phosphorus component in the positive electrode active substance particles is 0.0001 to 0.05 in terms of a molar ratio of P based on Mn.