Interface protection structure, preparation method and battery comprising structure

Abstract

The invention provides an interface protection structure and a preparation method thereof and a battery comprising the interface protection structure. The interface protection structure comprises a metal fluoride and a binder. The metal fluoride is one or more of nickel fluoride, manganese fluoride, iron fluoride, titanium fluoride, copper fluoride, tin fluoride, and the like. The structure can form a protective layer containing lithium fluoride during the cycle process of lithium metal batteries to protect lithium metal electrodes. The interface protection structure is prepared by the following method: (1) providing a mixed slurry comprising a metal fluoride, a binder, a solvent and / or a carbon material; (2) coating one side of a diaphragm with the mixed slurry to obtain a diaphragm containing a first coating; and (3) baking the diaphragm containing the first coating to obtain the interface protection structure.

Description

【Technical field】

[0001] The invention relates to the field of electrochemistry, in particular to an interface protection structure of a lithium metal battery, a diaphragm structure with the coating, and its preparation and application. 【Background technique】

[0002] Thanks to the small volume change of ~10% of the graphite negative electrode during the cycle, the lithium-ion battery using it as the negative electrode material can obtain stable cycle performance and long service life. However, the lithium storage capacity of graphite anode materials is relatively low (339mAh / g in the case of lithium intercalation, and 372mAh / g in the case of lithium extraction), which has been unable to meet the needs of the industry in the process of continuously seeking higher energy density systems in the lithium battery market .

[0003] If all potential technologies that may increase energy density are taken into consideration, the upper limit of energy density that lithium-ion batter...

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