Doped and island-covered lithium cobaltite oxides

The invention claimed is: 1. A powderous lithium metal oxide for a cathode material in a rechargeable battery comprising particles having the general composition Li x Co 1−a−b M 1 a M 2 b O 2−d with 0.97<x<1.01, 0.005≦a<0.10, 0.001≦b≦0.02, and −0.1≦d≦0.1, wherein M 1 is Ni and Mn, M 2 is either one or more metals from the group consisting of Al, Mg, Ca, Ti, and Zr, wherein the particles comprise a core P2 and a shell P1 wherein P1 consists of a plurality of islands densely sintered to the core P2, wherein the weight ratio P1/P2 is <0.5 and P1+P2=1, wherein the molar content of M 1 in P2 is less than in P1, and the molar content of (M 2 +Co) in P2 is more than in P1; and wherein P2 comprises at least 3 mole % of Ni and Mn and is a LiM″O 2 -based material with M″ comprising Co and M 2 ,and P1 is a LiMO 2 based material with M comprising Co, M 1 and M 2 . 2. A powderous lithium metal oxide for a cathode material in a rechargeable battery comprising particles having the general composition Li x′ , Co 1−a′−b′ M 3 a′ M 4 b′ O 2−d′ with 0.97<x′<1.01, 0.005≦a′<0.10, 0.001≦b′≦0.02, and −0.1≦d′≦0.1, wherein M 3 is Ni and Mn, M 4 is either Al, or Al and either one or more metals from the group consisting of Mg, Ca, Ti, and Zr, wherein the particles comprise a core P2 and a shell P1, wherein P1 comprises Co and M 3 , wherein P2 comprises Co and Al, wherein P1 consists of a plurality of islands densely sintered to the core and the weight ratio P1/P2 is <0.5 and P1+P2=1, wherein the molar content of M 3 in P2 is less than in P1, and the molar content of Al in P2 is more than in P1; and wherein P2 comprises at least 3 mole % of Ni and Mn and is a LiM″O 2 -based material with M″ comprising Co and M 4 , and P1 is a LiMO 2 Based material with M comprising Co, M 3 and M 4 . 3. The powderous lithium metal oxide of claim 1 , wherein the molar content of M 2 in P2 is more than in P1. 4. The powderous lithium metal oxide of claim 2 , wherein the molar content of each of Co and Al in P2 is more than in P1. 5. The powderous lithium metal oxide of claim 1 , wherein near to the interface between P1 and P2, the molar content of M 2 has a gradient-like profile decreasing from b in P2 to below b/2 in P1. 6. The powderous lithium metal oxide of claim 1 , wherein near to the interface between P1 and P2, the molar content of M 1 has a gradient-like profile decreasing from a in P1 to below a/5 in P2. 7. The powderous lithium metal oxide of claim 2 , wherein near to the interface between P1 and P2, the molar content of Al has a gradient-like profile decreasing from b′ in P2 to below b′/2 in P1. 8. The powderous lithium metal oxide of claim 2 , wherein near to the interface between P1 and P2, the molar content of M 3 has a gradient-like profile decreasing from a′ in P1 to below a′/5 in P2. 9. The powderous lithium metal oxide of claim 1 , wherein 0.98≦x<1.00. 10. The powderous lithium metal oxide of claim 2 , wherein 0.98≦x′<1.00. 11. The powderous lithium metal oxide of claim 1 , wherein the lithium metal oxide has an electrical conductivity of less than 10 −5 S/cm when pressed with 63.7 MPa at 25° C. 12. The powderous lithium metal oxide of claim 1 , wherein M 2 consists of either one or both of 0.5 to 1.5 mole % Mg and 0.5 to 1.5 mole % Al. 13. The powderous lithium metal oxide of claim 2 , wherein M 4 consists of 0.5 to 1.5 mole % Mg and 0.5 to 1.5 mole % Al. 14. The powderous lithium metal oxide of claim 1 , wherein P1 consists of a lithiated oxide of Ni, Co and Mn, with a molar ratio m=Ni/Mn and n=Co/Ni with 1<m<3 and 0≦n<1. 15. The powderous lithium metal oxide of claim 1 , wherein the density of a relaxed pellet is greater than 3.7 g/cc after applying a pressure of 207 MPa on the powder. 16. The powderous lithium metal oxide of claim 1 , wherein the BET is lower than 0.3 m 2 /g. 17. The powderous lithium metal oxide of claim 1 , having a capacity versus voltage differential ratio dQ/dV<700 mAh/g/V in the 4.40V to 4.70V voltage range vs. Li metal during a first charge at C/10 rate. 18. The powderous lithium metal oxide of claim 1 , having a capacity versus voltage differential ratio dQ/dV<2000 mAh/g/V in the 4.40V to 4.70V voltage range vs. Li metal during a first discharge at C/10 rate. 19. The powderous lithium metal oxide of claim 2 , wherein the lithium metal oxide has an electrical conductivity of less than 10 −5 S/cm when pressed with 63.7 MPa at 25° C. 20. The powderous lithium metal oxide of claim 2 , wherein the density of a relaxed pellet is greater than 3.7 g/cc after applying a pressure of 207 MPa on the powder.