Suppression of Co(II) ion deposition and hazards: Regulation of SEI film composition and structure

IF 14 1区 化学 Q1 CHEMISTRY, APPLIED
Jiaqi Zhan, Mingzhu Liu, Yutian Xie, Jiarong He, Hebing Zhou, Lidan Xing, Weishan Li
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Abstract

Despite the presence of LiF components in the solid electrolyte interphase (SEI) formed on the graphite anode surface by conventional electrolyte, these LiF components primarily exist in an amorphous state, rendering them incapable of effectively inhibiting the exchange reaction between lithium ions and transition metal ions in the electrolyte. Consequently, nearly all lithium ions within the SEI film are replaced by transition metal ions, resulting in an increase in interphacial impedance and a decrease in stability. Herein, we demonstrate that the SEI film, constructed by fluoroethylene carbonate (FEC) additive rich in crystalline LiF, effectively inhibits the undesired Li+/Co2+ ion exchange reaction, thereby suppressing the deposition of cobalt compounds and metallic cobalt. Furthermore, the deposited cobalt compounds exhibit enhanced structural stability and reduced catalytic activity with minimal impact on the interphacial stability of the graphite anode. Our findings reveal the crucial influence of SEI film composition and structure on the deposition and hazards associated with transition metal ions, providing valuable guidance for designing next-generation electrolytes.

Abstract Image

抑制Co(II)离子沉积及其危害:SEI薄膜组成和结构的调控
尽管传统电解质在石墨阳极表面形成的固体电解质界面(SEI)中存在LiF组分,但这些LiF组分主要以无定形存在,无法有效抑制电解质中锂离子与过渡金属离子的交换反应。因此,SEI膜内几乎所有的锂离子都被过渡金属离子取代,导致界面阻抗增加,稳定性下降。本文中,我们证明了由富含晶体LiF的氟乙烯碳酸酯(FEC)添加剂构建的SEI膜,有效抑制了不想要的Li+/Co2+离子交换反应,从而抑制了钴化合物和金属钴的沉积。此外,沉积的钴化合物表现出增强的结构稳定性和降低的催化活性,对石墨阳极的界面稳定性影响最小。我们的研究结果揭示了SEI薄膜的组成和结构对过渡金属离子沉积和危害的重要影响,为设计下一代电解质提供了有价值的指导。
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CiteScore
23.60
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