“Water-in-salt” electrolyte enables high-voltage aqueous lithium-ion chemistries

Liumin Suo; Oleg Borodin; Tao Gao; Marco Olguin; Janet Ho; Xiulin Fan; Chao Luo; Chunsheng Wang; Kang Xu

doi:10.1126/science.aab1595

“Water-in-salt” electrolyte enables high-voltage aqueous lithium-ion chemistries

Liumin Suo(University of Maryland, College Park), Oleg Borodin(DEVCOM Army Research Laboratory), Tao Gao(University of Maryland, College Park), Marco Olguin(DEVCOM Army Research Laboratory), Janet Ho(DEVCOM Army Research Laboratory), Xiulin Fan(University of Maryland, College Park), Chao Luo(University of Maryland, College Park), Chunsheng Wang(University of Maryland, College Park), Kang Xu(DEVCOM Army Research Laboratory)

Science

November 19, 2015

10.1126/science.aab1595

Cited by 3,667

Abstract

A concentrated effort for battery safety Aqueous electrolytes are limited to run below 1.23 V to avoid degradation. Suo et al. smash through this limit with an aqueous salt solution containing lithium (Li) bis(trifluoromethane sulfonyl)imide to create an electrolyte that has an electrochemical window of 3 V (see the Perspective by Smith and Dunn). They used extremely high-concentration solutions, which suppressed hydrogen evolution and electrode oxidation. At these concentrations, the Li solvation shell changes because there simply is not enough water to neutralize the Li + charge. Thus, flammable organic electrolytes could potentially be replaced with a safer aqueous alternative. Science , this issue p. 938 ; see also p. 918

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