Ethylene carbonate/ether solvents for electrolytes in lithium secondary batteries

The properties of new ethylene carbonate (EC)-based electrolytes have been examined in an effort to obtain an electrolyte solution of higher conductivity than EC/2-methyltetrahydrofuran(2-MeTHF) without suppressing the lithium (Li) cycling efficiency more than necessary. Three, linearstructured solv

The electrolytic characteristics of various 1,2\_dialkoxyethane (DAE)propylene carbonate (PC) mixed solvent electrolytes for Li secondary batteries have been examined. DAE[HsC(CH2),0C2H40(CH2),CHs] is a low viscous, non-cyclic, aprotic solvent. As DAEs, dimethoxyethane (DME), diethoxyethane (DEE), a

Lithium (Li) cycling efficiency by Li half cell tests and conductivity dependency on temperature are examined for LiAsF,-ethylene carbonate (EC)/2-methyltetrahydrofuran(2MeTHF)/third solvent (TS) ternary mixed solvent electrolytes, to obtain organic electrolyte systems with higher conductivity than

## Measurements on conductivity and I\_] chargedischarge eRictency m various propylene cerbonate (PC)-based electrolytes were carried out to obtam electrolytes for Li secondary batteries. Among the electrolytes examined, 2 M LiCIO,-PC-THF (PC/THF volume ratio = 4/6) showed 1.6 times higher conduct