<P>A lithium-modified silica nanosalt (Li-SiO2, coded Li202) of hydrophobic fumed silica (R202) is synthesized to use as an electrolyte additive for lithium-ion batteries (LIBs) under low temperature conditions. The synthesis method consists of ...
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https://www.riss.kr/link?id=A107610825
Hamenu, L. ; Lee, H.S. ; Latifatu, M. ; Kim, K.M. ; Park, J. ; Baek, Y.G. ; Ko, J.M. ; Kaner, R.B.
2016
-
KCI등재,SCIE,SCOPUS
학술저널
611-617(7쪽)
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
<P>A lithium-modified silica nanosalt (Li-SiO2, coded Li202) of hydrophobic fumed silica (R202) is synthesized to use as an electrolyte additive for lithium-ion batteries (LIBs) under low temperature conditions. The synthesis method consists of ...
<P>A lithium-modified silica nanosalt (Li-SiO2, coded Li202) of hydrophobic fumed silica (R202) is synthesized to use as an electrolyte additive for lithium-ion batteries (LIBs) under low temperature conditions. The synthesis method consists of reacting the silica nanoparticles with LiH and consequently quickly reacting the conjugate silicate ions with 1,3-propanesultone as a surface stabilizer. The obtained Li202 nanosalt (2.5 wt%) is added into an electrolyte solution of 1.0 M LiPF6 dissolved in ethylene carbonate/propylene carbonate/ethylmethyl carbonate/diethyl carbonate (20:5:55:20 vol%) + 2 wt% vinylene carbonate. The electrolyte solution including the Li202 nanosalt shows higher ionic conductivity and superior electrochemical stability over 5 V, which is due to the stabilized surface group. The high-rate capability at -20 degrees C of the LiCoO2/graphite cell is particularly enhanced by adding Li202 nanosalt. In addition, excellent cycle performance at -20 degrees C endorses the use of Li202 nanosalt as a low-temperature electrolyte additive for LIBs. (C) 2016 Elsevier B.V. All rights reserved.</P>
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