Lithium cobalt oxide based compounds with a cubic secondary phase

The invention claimed is: 1. A lithium metal oxide powder for a cathode material in a rechargeable battery, comprising a core material and a surface layer, the core material having a layered crystal structure consisting of the elements Li, a metal M and oxygen, wherein the metal M has the formula M=Co 1−a M′ a , with 0≤a≤0.05, wherein M′ is selected from one or more metals of the group consisting of Al, Ga and B; and the surface layer comprising a mixture of the elements of the core material Li, M and oxygen, inorganic N-based oxides and a cubic phase oxide having a crystal structure with a Fd-3mS space group, wherein N is selected from one or more metals of the group consisting of Mg, Ti, Fe, Cu, Ca, Ba, Y, Sn, Sb, Na, Zn, Zr and Si. 2. The lithium metal oxide powder of claim 1 , wherein the Li content is set at a value of Li:M of 0.995 or below. 3. The lithium metal oxide powder of claim 2 , wherein the Li content is set at a value of Li:M between 0.963 and 0.993. 4. The lithium metal oxide powder of claim 1 , wherein the cubic phase oxide having a crystal structure with a Fd-3mS space group has a lattice constant “as ” with 8.055≤a s ≤8.150, a s being expressed in angstom (Å). 5. The lithium metal oxide powder of claim 1 , wherein the amount of cubic phase oxide in the lithium metal oxide powder is between 0.1 and 5 wt %. 6. The lithium metal oxide powder of claim 1 , wherein the lithium metal oxide powder has an electrical conductivity less than 10 −5 S/cm, the electrical conductivity being measured under an applied pressure of 63.7 MPa. 7. The lithium metal oxide powder of claim 1 , having a 7 Li MAS NMR spectrum that features a unique resonance around −0.5 ppm. 8. The lithium metal oxide powder of claim 1 , wherein 0<a≤0.03. 9. The lithium metal oxide powder of claim 1 , wherein the thickness of the surface layer is less than 100 nm. 10. The lithium metal oxide powder claim 1 , wherein N consists of Mg and Ti, the Mg content being between 0.1 and 1 mol % and the Ti content between 0.1 and 0.5 mol %. 11. The lithium metal oxide powder claim 1 , wherein the N-based oxides comprise oxides having incorporated Li atoms. 12. The lithium metal based powder of claim 1 , wherein the core material is substantially free from the paramagnetic metals Co 2+ , intermediate spin Co 3+ and Co 4+ . 13. 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. 14. The lithium metal oxide powder of claim 1 , wherein a concentration of N in the surface layer decreases with increasing distance from the surface of the lithium metal oxide powder. 15. A method for manufacturing a lithium metal oxide powder of claim 1 , the method comprising: providing a first mixture of a first Co- or Co and M′-comprising precursor powder and a first Li-comprising precursor powder, the first mixture having a Li to M molar ratio >1.01, sintering the first mixture in an oxygen comprising atmosphere at a temperature T 1 of at least 600° C., thereby obtaining a Li-enriched lithium metal oxide compound, providing a second Co- or Co and M′-comprising precursor powder, and mixing the Li-enriched lithium metal oxide compound and the second Co- or Co and M′-comprising precursor powder, thereby obtaining a second mixture wherein the molar ratio of Li to M is ≤0.995, and sintering the second mixture in an oxygen comprising atmosphere at a temperature T 2 of at least 600° C.; wherein one or more of the first Co- or Co and M′-comprising precursor powder, the first Li-comprising precursor powder, or the second Co- or Co and M′-comprising precursor powders further comprises at least one element selected from the group consisting of Mg, Ti, Fe, Cu, Ca, Ba, Y, Sn, Sb, Na, Zn, Zr and Si. 16. The method according to claim 15 , wherein the first mixture has a Li to M molar ratio between 1.02 and 1.12. 17. The method according to claim 15 , wherein the second mixture has a ratio of Li to metal Li:M between 0.963 and 0.993. 18. An electrochemical cell comprising a cathode comprising the lithium metal oxide powder according to claim 1 .