电解质
相间
化学
电子顺磁共振
自旋俘获
无机化学
锂(药物)
金属
光化学
金属锂
反应中间体
质谱法
碳酸盐
光谱学
核磁共振波谱
滴定法
离子
盐(化学)
顺磁性
激进的
作者
S. L. Ramesh,Yuxin Huang,Xiaoyang Liu,Cecelia Barr,Matthew D. Krzyaniak,Michael R. Wasielewski,Linda J. Broadbelt,Jeffrey Lopez
摘要
Despite promising developments in liquid electrolyte engineering for lithium metal batteries, solid electrolyte interphase (SEI) formation mechanisms from electrolyte components remain challenging to study. Here, we establish an approach employing spin trapping to identify radical intermediates formed during electrolyte reduction. We use electron paramagnetic resonance spectroscopy to identify three distinct radical intermediates formed during fluoroethylene carbonate reduction that confirm a ring-opening mechanism. Our spin trapping approach further enables confirmation of radical identity with liquid chromatography-mass spectrometry and nuclear magnetic resonance spectroscopy. The resulting SEI formed in the spin-trapped system is investigated with titration and spectroscopic techniques to observe how stunting organic SEI formation reduces SEI stability and increases anion decomposition. Overall, this is the first time that radical intermediates in battery interphase formation reactions have been directly characterized, affording insight into the complex mechanisms of electrolyte reduction and establishing a new approach for studying SEI formation and function.
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