Lithium metal oxide particles coated with a mixture of the elements of the core material and one or more metal oxides

The invention claimed is: 1. A lithium metal oxide powder for use as a cathode material in a rechargeable battery, comprising a core material and a surface layer, the core material comprising a layered crystal structure comprising the elements Li, a metal M and oxygen, wherein the Li content is stoichiometrically controlled, the metal M has the formula M=Co 1-a M′ a , with 0≤a≤0.05, and M′ is either one or more metals selected from the group consisting of Al, Ga and B; and the surface layer having a thickness of at least 50 nm and comprising a mixture of the elements of the core material, Li, M, and oxygen, and inorganic N-based oxides, wherein N is one or more metals selected from the group consisting of Mg, Ti, Fe, Cu, Ca, Ba, Y, Sn, Sb, Na, Zn, Zr and Si, and wherein the concentration in N metals decreases with increasing distance from the surface to the core on a gradient, and wherein the concentration of N metals in the core is not zero. 2. The lithium metal oxide powder of claim 1 , wherein 0<a≤0.03. 3. The lithium metal oxide powder of claim 1 , having a mean particle size D50 of at least 5 μm. 4. The lithium metal oxide powder of claim 1 , wherein the thickness of the surface layer is less than 100 nm. 5. The lithium metal oxide powder of claim 1 , wherein the surface layer further comprises less than 2000 ppm of one or more of LiF, Li 3 PO 4 and Li 2 SO 4 . 6. The lithium metal oxide powder of claim 1 , wherein the metal in the core material is diamagnetic. 7. The lithium metal oxide powder of claim 6 , wherein in the core material, the Li occupies a crystallographic site surrounded by trivalent diamagnetic metals. 8. The lithium metal oxide powder of claim 1 , having a pressed density of at least 3.40 g/cm 3 . 9. The lithium metal oxide powder of claim 1 , having a reversible electrode capacity of at least 200 mAh/g, when used as an active component in a cathode which is cycled between 3.0 and 4.6 V vs. Li + /Li at a discharge rate of 0.1 C. 10. The lithium metal oxide powder of claim 9 , having a capacity fade rate per 100 cycles at 1 C below 60%. 11. The lithium metal oxide powder of claim 1 , wherein N comprises Mg and Ti, the Mg content being between 0.1 and 1 mol % and the Ti content being between 0.1 and 0.5 mol %. 12. The lithium metal oxide powder of claim 1 , having a total base content of less than 50 μmol/g. 13. The lithium metal oxide powder of claim 1 , having a carbon content less than 50 ppm. 14. The lithium metal oxide powder of claim 1 , having an electrical conductivity less than 10 −4 S/cm. 15. The lithium metal oxide powder of claim 1 , wherein the surface layer is substantially free from lithium salts. 16. The lithium metal oxide powder of claim 1 , comprising monolithic, potato-shaped and non-agglomerated particles. 17. The lithium metal oxide powder of claim 1 , wherein the powder has a bimodal particle shape distribution where the small particle size fraction has a D50≤5 μm and is between 3 to 20 Vol %, and where the large particle size fraction has a D50≥12 μm. 18. The lithium metal oxide powder of claim 1 , wherein the core material is substantially free from oxygen vacancies and from Li substitution for M in the MO 2 layers of the layered crystal structure. 19. The lithium metal oxide powder of claim 1 , wherein the core material is substantially free from paramagnetic metals.