Insight into the Role of Fluoroethylene Carbonate in Solid Electrolyte Interphase Construction for Graphite Anodes of Lithium-Ion Batteries

Huang, Lingling; Chen, Shuai; Zhan, Jiaqi; Liang, Jiajiong; Li, Suli; Wang, Hai; Xu, Mengqing; Li, Weishan

doi:10.1021/acs.jpcc.4c02475

J. Phys. Chem. C

2024

DOI: 10.1021/acs.jpcc.4c02475

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Insight into the Role of Fluoroethylene Carbonate in Solid Electrolyte Interphase Construction for Graphite Anodes of Lithium-Ion Batteries

Lingling Huang,

Shuai Chen,

Jiaqi Zhan

et al.

Abstract: The role that fluoroethylene carbonate (FEC) plays in the construction of the solid electrolyte interphase (SEI) on graphite anodes of lithium-ion batteries is understood by theoretical calculations combined with electrochemical measurements and spectral characterizations. It is found that FEC is different from ethylene carbonate (EC), although they have a similar structure. FEC presents a stronger ability than EC to combine with PF6 –, which is helpful for the reduction of LiPF6 to construct a LiF-rich inner … Show more

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Cited by 2 publications

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Fluoroethylene carbonate electrolyte additive for improved charge-discharge performance of Co-free high entropy spinel oxide anodes for lithium-ion batteries

Patra,

Nguyen,

Panda

et al. 2024

Ceramics International

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Fluoroethylene carbonate electrolyte additive for improved charge-discharge performance of Co-free high entropy spinel oxide anodes for lithium-ion batteries

Patra,

Nguyen,

Panda

et al. 2024

Ceramics International

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Rational Design of Electrolyte Additives for Improved Solid Electrolyte Interphase Formation on Graphite Anodes: A Study of 1,3,6-Hexanetrinitrile

Liu,

Wang,

Cao

et al. 2024

Energies

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The construction of a thin, uniform, and robust solid electrolyte interphase (SEI) film on the surface of active materials is pivotal for enhancing the overall performance of lithium-ion batteries (LiBs). However, conventional electrolytes often fail to achieve the desired SEI characteristics. In this work, we introduced 1,3,6-hexanetrinitrile (HTCN) in the baseline electrolyte (BE) of 1.0 M LiPF6 in Ethylene Carbonate/Dimethyl Carbonate (EC/DMC) (3:7 by volume) with 5 wt.% fluoroethylene carbonate (FEC), denoted as BE-FH. By systematically investigating the influence of FEC: HTCN weight ratios on the electrochemical performance of graphite anodes, we identified an optimal composition (FEC:HTCN = 5:4 by weight, denoted as BE-FH54) that demonstrated greatly improved initial Coulombic efficiency, rate capability, and cycling stability compared with the baseline electrolyte. Deviations from the optimal FEC:HTCN ratio resulted in the formation of either small cracks or excessively thick SEI layers. The enhanced performance of BE-FH54-based LiB is mainly ascribed to the synergistic effect of FEC and HTCN in forming a robust, thin, homogeneous, and ion-conducting SEI. This research highlights the importance of rational electrolyte design in enhancing the electrochemical performance of graphite anodes in LiBs and provides insights into the role of nitrile-based additives in modulating the SEI properties.

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Insight into the Role of Fluoroethylene Carbonate in Solid Electrolyte Interphase Construction for Graphite Anodes of Lithium-Ion Batteries

Cited by 2 publications

References 47 publications

Fluoroethylene carbonate electrolyte additive for improved charge-discharge performance of Co-free high entropy spinel oxide anodes for lithium-ion batteries

Fluoroethylene carbonate electrolyte additive for improved charge-discharge performance of Co-free high entropy spinel oxide anodes for lithium-ion batteries

Rational Design of Electrolyte Additives for Improved Solid Electrolyte Interphase Formation on Graphite Anodes: A Study of 1,3,6-Hexanetrinitrile

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