Lithium cobalt oxide positive electrode material, preparation method thereof, and lithium ion secondary battery

A positive electrode material, lithium cobalt oxide technology, applied in the field of materials, can solve the problems of limited role of stable structure, release, and inability to buffer well

Active Publication Date: 2020-09-29
HUAWEI TECH CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] However, it should be pointed out that although the above-mentioned positive electrode material doped with elements can stabilize the layered structure of lithium cobalt oxide in a high-voltage environment, it has a limited effect on stabilizing the structure because the positive electrode material cannot be well Buffer or release the stress caused by the change of lattice constant during charging and discharging;

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  • Lithium cobalt oxide positive electrode material, preparation method thereof, and lithium ion secondary battery
  • Lithium cobalt oxide positive electrode material, preparation method thereof, and lithium ion secondary battery
  • Lithium cobalt oxide positive electrode material, preparation method thereof, and lithium ion secondary battery

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preparation example Construction

[0066] In another embodiment of the present invention, a method for preparing a structurally stable high-voltage lithium cobalt oxide cathode material co-modified by doping and surface coating is also provided, the method comprising:

[0067] Step (1): Using the controlled crystallization method, according to the molar ratio, take an appropriate amount of cobalt source and a compound containing the invariant element Ma, prepare an aqueous solution containing Co ions and the invariant element Ma ion, and mix it with the complex solution and the precipitant solution Make it react to crystallize, stir at the same time, and control the pH value of the reaction system to be 6-12, perform centrifugal filtration after crystallization, obtain the carbonate or hydroxide of cobalt doped with the invariant element Ma;

[0068] Step (2): According to the molar ratio, take an appropriate amount of the compound containing the variable valence element Mb and the carbonate or hydroxide of coba...

Embodiment 1

[0110] A structurally stable high-voltage lithium cobaltate cathode material, which is doped with Al and Ni by lithium cobaltate and coated with LiCo 0.5 Ni 0.5 o 2 Formed, its molecular formula is 0.005LiCo 0.5 Ni 0.5 o 2 0.995LiCo 0.996 Al 0.003 Ni 0.001 o 2 , its preparation method comprises the following steps:

[0111] (1) Dissolve CoSO with deionized water 4 、Al 2 (SO 4 ) 3 , configured as a mixed salt solution with a molar ratio of Co:Al=99.6:0.3, and the Co in the mixed salt solution 2+ The concentration of the solution is 1.25mol / L; select concentrated ammonia water and distilled water to form a complex solution in a volume ratio of 1:10; select 1.2mol / L sodium carbonate solution as the precipitant solution; inject 1 / 3 of its solvent into the reaction kettle Precipitant solution, under strong stirring and inert gas protection, adopt the co-current control flow method to continue to inject the above-mentioned mixed salt solution, complex solution and preci...

Embodiment 2

[0117] A structurally stable high-voltage lithium cobaltate cathode material, made of lithium cobaltate doped with Al and Cr, and coated with LiNiPO 4 Formed, its molecular formula is 0.005LiNiPO 4 0.995 Li 1.03 co 0.995 Al 0.004 Cr 0.001 o 2 , its preparation method comprises the following steps:

[0118] (1) Dissolve CoSO with deionized water 4 、Al 2 (SO 4 ) 3 , configured as a mixed salt solution with a molar ratio of Co:Al=99.5:0.4, and the Co in the mixed salt solution 2+ The concentration of the solution is 1.25mol / L; select concentrated ammonia water and distilled water to form a complex solution in a volume ratio of 1:10; select 1.2mol / L sodium carbonate solution as the precipitant solution; inject 1 / 3 of its solvent into the reaction kettle Precipitant solution, under strong stirring and inert gas protection, adopt the co-current control flow method to continue to inject the above-mentioned mixed salt solution, complex solution and precipitant solution into ...

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Abstract

Provided is a lithium cobalt oxide positive-electrode material, said material being a composite structure having a doped lithium-cobalt-oxide substrate and surface coating; the general formula of said doped lithium-cobalt-oxide substrate is Li 1+zCo 1-x-yMa xMb yO 2, wherein 0≤x≤0.01, 0≤y≤0.01 and -0.05≤z≤0.08; said Ma is a doped invariable-valence element, at least one of Al, Ga, Hf, Mg, Sn, Zn, and Zr; said Mb is a doped variable-valence element, at least one of Ni, Mn, V, Mo, Nb, Cu, Fe, In, W, and Cr; the surface coating layer is a high-voltage (>4.5 V) positive-electrode material. By means of substitution doping of the variable-valence element, distortion resulting from delithiation of the layered structure is reduced by the maximum extent; the variable-valence element is doped by means of gaps, and during the process of charging, the oxidation of Co 3+is reconciled and delayed. The surface coating layer of the high-voltage positive-electrode material has a stable structure at voltages of 4.5 V or higher, and is capable of isolating an electrolyte solution and a lithium-cobalt-oxide substrate, thus reducing side reactions between the two and inhibiting the dissolution of transition metals; it also provides electrochemical energy.

Description

technical field [0001] The invention relates to the field of materials, in particular to a lithium cobaltate cathode material, a method for preparing the lithium cobaltate cathode material and a lithium ion secondary battery. Background technique [0002] At present, lithium-ion batteries have been widely used in various electronic devices (such as mobile phones and tablet computers). With the continuous improvement of people's requirements for the performance of electronic devices, higher requirements are placed on the energy density of lithium-ion batteries. The volumetric energy density of the battery = discharge capacity × discharge voltage platform × compaction density. Increasing the charge cut-off voltage of the positive electrode material can increase the discharge capacity and discharge voltage platform, thereby increasing its energy density. However, when a Li-ion battery is charged to 4.2V, LiCoO 2 Lithium ions in Li are extracted to form Li 1-x CoO 2 (0≤x≤0.5...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M4/36H01M4/525H01M10/0525
CPCH01M4/366H01M4/525H01M10/0525C01G51/42C01P2002/50C01P2002/52C01P2006/40H01M4/36H01M4/48H01M4/485Y02E60/10
Inventor 雷丹李阳兴
Owner HUAWEI TECH CO LTD
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