Lithium battery containing cathode material and electrolyte additives for high voltage application

The invention claimed is: 1. A lithium secondary cell having an operating voltage ≥4.35V, comprising a cathode comprising a powderous, doped LiCoO 2 active material comprising a core and a surface layer, wherein the active material is doped by at least 0.5 mole % of one or more of Mn, Mg and Ti, and wherein when the active material is doped by Mg, the Mg:Co ratio in the surface layer versus the Mg:Co ratio in the core is >2, or when the active material is doped by Mn, the Mn:Co ratio in the surface layer versus the Mn:Co ratio in the core is >2, or when the active material is doped by Ti, the Ti:Co ratio in the surface layer versus the Ti:Co ratio in the core is >2; an anode comprising graphite, and an electrolyte comprising a carbonate-based solvent, a lithium salt and both a succinonitrile (SN) additive and a lithium bis(oxalato) borate (LiBOB) additive, wherein the core of the active material has a layered crystal structure and consists 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 Al or M′ is Al and one or more elements selected from the group consisting of Mg, Ti, Ga and B; and the surface layer comprises Li, Co, and inorganic N-based oxides or lithiated oxides, wherein N is one or more metals of the group consisting of Al, Mg, Ti, Ni, Mn, Fe, Cu, Ca, Ba, Y, Sn, Sb, Na, Zn, Zr and Si; and wherein in the active material the molar ratio Al:Co>0.004, and both the Mg and Al contents of the core are different from the Mg and Al contents of the surface layer. 2. The lithium secondary cell of claim 1 , wherein during the discharge at 45° C. from a state of charge (SOC) of 100% at 4.5V to a SOC of 0% at 3V at a C/10 rate the difference of the SOC at 4.42V and 4.35V is at least 7% but less than 14%. 3. The lithium secondary cell of claim 1 , wherein the electrolyte comprises 0.5-3 wt % succinonitrile. 4. The lithium secondary cell of claim 1 , wherein the carbonate-based solvent comprises one or more of ethylene carbonate (EC), vinylene carbonate (VC), fluoroethylene carbonate (FEC) or diethyl carbonate (DEC), and the lithium salt consists of LiPF 6 . 5. The lithium secondary cell of claim 1 , wherein the surface layer of the active material comprises a plurality of islands densely sintered to the core, the islands comprising Ni and at least 5 mole % of Mn. 6. The lithium secondary cell of claim 5 , wherein the Mn concentration in the islands is at least 4 mole % higher than the Mn concentration in the core, and wherein the Ni concentration in the islands is at least 2 mole % higher than the Ni concentration in the core. 7. The lithium secondary cell of claim 1 , wherein M′ is Al or M′ is Al and one or both of Ga and B; and the surface layer consists of Li, Co, and inorganic N-based oxides or lithiated oxides, wherein N is Al, Ti and Mg, or N is Al, Ti, Mg and one or more metals selected from the group consisting of Fe, Cu, Ca, Ba, Y, Sn, Sb, Na, Zn, Zr and Si. 8. The lithium secondary cell of claim 7 , wherein the molar ratio Li:(Co+Al) is more than 0.98 and less than 1.01. 9. The lithium secondary cell of claim 7 , wherein the active material has an electrical conductivity less than 10 −5 S/cm measured under a pressure of 63.7 MPa at 25° C. 10. The lithium secondary cell of claim 1 , wherein the active material has the general composition Li x Co 1−a−b M 1 a M 2 b O 2−d with 0.97<x, 0.005≤a<0.10, 0.001≤b≤0.02, and −0.1≤d≤0.1, wherein M 1 is one or both of Ni and Mn, M 2 is one or more metals selected from the group consisting of Al, Mg, Ca, Ti, and Zr, wherein particles of the active material 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 the molar content of M 1 in P1, and the molar content of (M 2 +Co) in P2 is more than the molar content of (M 2 +Co) in P1. 11. The lithium secondary cell of claim 1 , wherein the core of the active material has a layered crystal structure and consists 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 Al or M′ is Al and one or more elements selected from the group consisting of Mg, Ti, Ga and B; and the surface layer comprises Li, Co, and inorganic N-based oxides or lithiated oxides, wherein N is one or more metals of the group consisting of Al, Mg, Ti, Ni, Mn, Fe, Cu, Ca, Ba, Y, Sn, Sb, Na, Zn, Zr and Si; and wherein in the active material the molar ratio Al:Co>0.004. 12. The lithium secondary cell of claim 1 , wherein the electrolyte comprises 0.5-3 wt % succinonitrile and 0.5-5 wt % lithium bis(oxalato)borate. 13. A lithium secondary cell having an operating voltage ≥4.35V, comprising a cathode comprising a powderous, doped LiCoO 2 active material comprising a core and a surface layer, wherein the active material is doped by at least 0.5 mole % of one or more of Mn, Mg and Ti, and wherein when the active material is doped by Mg, the Mg:Co ratio in the surface layer versus the Mg:Co ratio in the core is >2, or when the active material is doped by Mn, the Mn:Co ratio in the surface layer versus the Mn:Co ratio in the core is >2, or when the active material is doped by Ti, the Ti:Co ratio in the surface layer versus the Ti:Co ratio in the core is >2; an anode comprising graphite, and an electrolyte comprising a carbonate-based solvent, a lithium salt and both a succinonitrile (SN) and a lithium bis(oxalato) borate (LiBOB) additive, wherein the active material has 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 one or both of Ni and Mn, M 2 is one or more metals selected from the group consisting of Al, Mg, Ca, Ti, and Zr, wherein particles of the active material 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 the molar content of M 1 in P1, and the molar content of (M 2 +Co) in P2 is more than the molar content of (M 2 +Co) in P1. 14. A lithium secondary cell having an operating voltage ≥4.35V, comprising a cathode comprising a powderous, doped LiCoO 2 active material comprising a core and a surface layer, wherein the active material is doped by at least 0.5 mole % of one or more of Mn, Mg and Ti, and wherein when the active material is doped by Mg, the Mg:Co ratio in the surface layer versus the Mg:Co ratio in the core is >2, or when the active material is doped by Mn, the Mn:Co ratio in the surface layer versus the Mn:Co ratio in the core is >2, or when the active material is doped by Ti, the Ti:Co ratio in the surface layer versus the Ti:Co ratio in the core is >2; an anode comprising graphite, and an electrolyte comprising a carbonate-based solvent, a lithium salt and both a succinonitrile (SN) and a lithium bis(oxalato) borate (LiBOB) additive, wherein the active material has the general composition Lix′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 one or both of Ni and Mn, M 4 is Al, or Al and one or more metals selected from the group consisting of Mg, Ca, Ti, and Zr, wherein particles of the active material 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