在一次锂电池中同时进行剥离/氟化以制备具有高功率密度的氟化剥离石墨

IF 1.7 4区化学 Q3 CHEMISTRY, INORGANIC & NUCLEAR

Journal of Fluorine Chemistry Pub Date : 2024-08-01 DOI:10.1016/j.jfluchem.2024.110333

Marie Colin, Louise Dauga, Hani Farhat, Elodie Petit, Lawrence Frezet, Katia Guérin, Marc Dubois

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引用次数: 0

摘要

通过膨胀石墨氟化和可膨胀石墨同时剥离/氟化两种途径，合成了具有手风琴状形态、高含量（C2F）n 相（43%）和残余非氟化碳的氟化碳。后者可实现一步合成。在一次锂电池放电过程中，类似于手风琴的形态可以容纳锂F，而不会在氟碳片边缘产生有害堆积。在 6C 的放电率下，法拉第产量接近 100%。残留的 sp2 碳（亚氟化）确保了电化学过程中的电子通量，并提高了功率密度（9828 W.Kg-1）。(C2F)n相的高含量导致了平坦的电静电放电曲线。这些特性的结合使能量密度和功率密度之间达到了很好的折衷，从而使氟化剥离石墨成为一次锂电池的最佳阴极之一。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Simultaneous exfoliation/fluorination for the preparation of fluorinated exfoliated graphite with high power densities in primary lithium batteries

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Simultaneous exfoliation/fluorination for the preparation of fluorinated exfoliated graphite with high power densities in primary lithium batteries

Fluorinated carbons combining accordion-like morphology, high content of (C₂F)_n phase (43%), and residual non-fluorinated carbons were synthetized by two routes, i.e. fluorination of expanded graphite and simultaneous exfoliation/fluorination of expandable graphite. The latter allows the synthesis in a one-step process to be achieved. Accordion-like morphology allows the accommodation of LiF without detrimental accumulation onto the fluorocarbon sheet edges during the discharge in primary lithium battery. The faradic yield is then close to 100 % up to a discharge rate of 6C. Residual sp² carbons (sub-fluorination) ensure the electron flux during the electrochemical process and enhance the power density (9828 W.Kg^-1). High content of (C₂F)_n phase results in a flat galvanostatic discharge curve. The combination of those features results in a good compromise between energy and power densities, making fluorinated exfoliated graphite one of the best cathodes for primary lithium batteries.

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来源期刊

Journal of Fluorine Chemistry 化学-无机化学与核化学

CiteScore

3.80

自引率

10.50%

发文量

审稿时长

33 days

期刊介绍： The Journal of Fluorine Chemistry contains reviews, original papers and short communications. The journal covers all aspects of pure and applied research on the chemistry as well as on the applications of fluorine, and of compounds or materials where fluorine exercises significant effects. This can include all chemistry research areas (inorganic, organic, organometallic, macromolecular and physical chemistry) but also includes papers on biological/biochemical related aspects of Fluorine chemistry as well as medicinal, agrochemical and pharmacological research. The Journal of Fluorine Chemistry also publishes environmental and industrial papers dealing with aspects of Fluorine chemistry on energy and material sciences. Preparative and physico-chemical investigations as well as theoretical, structural and mechanistic aspects are covered. The Journal, however, does not accept work of purely routine nature. For reviews and special issues on particular topics of fluorine chemistry or from selected symposia, please contact the Regional Editors for further details.