Invention Grant
- Patent Title: Li—Sn—O—S compound, manufacturing method therefor and use thereof as electrolyte material of Li-ion batteries, and Li—Sn—O—S hybrid electrolyte
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Application No.: US16171286Application Date: 2018-10-25
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Publication No.: US10784533B2Publication Date: 2020-09-22
- Inventor: Der-Jun Jan , Dong-Hau Kuo , Roger Lo
- Applicant: Institute of Nuclear Energy Research, Atomic Energy Council, Executive Yuan, R.O.C.
- Applicant Address: TW Taoyuan
- Assignee: INSTITUTE OF NUCLEAR ENERGY RESEARCH , ATOMIC ENERGY COUNCIL, EXECUTIVE YUAN, R.O.C.
- Current Assignee: INSTITUTE OF NUCLEAR ENERGY RESEARCH , ATOMIC ENERGY COUNCIL, EXECUTIVE YUAN, R.O.C.
- Current Assignee Address: TW Taoyuan
- Agent Cheng-Ju Chiang
- Priority: com.zzzhc.datahub.patent.etl.us.BibliographicData$PriorityClaim@41bf1b7
- Main IPC: H01M10/056
- IPC: H01M10/056 ; H01M10/0525 ; C01G19/00
Abstract:
A Li—Sn—O—S compound, a manufacturing method therefor and use thereof as an electrolyte material of Li-ion batteries, and a Li—Sn—O—S hybrid electrolyte are provided. The Li—Sn—O—S compound of the present invention is laminated Sn—O—S embedded with lithium ions. The Li—Sn—O—S compound is represented by the formula Li3x[LixSn1−x(O,S)2], where x>0. The manufacturing method for a Li—Sn—O—S compound includes the following steps of: (S1000) providing a Sn—O—S compound; (S2000) adding a lithium source into the Sn—O—S compound to form a Li—Sn—O—S precursor; and (S3000) performing calcination on the Li—Sn—O—S precursor in a vulcanization condition.
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