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. 2020 Aug;19(8):894-899.
doi: 10.1038/s41563-020-0657-0. Epub 2020 Apr 13.

A general Lewis acidic etching route for preparing MXenes with enhanced electrochemical performance in non-aqueous electrolyte

Youbing Li #  1   2 Hui Shao #  3   4 Zifeng Lin  5 Jun Lu  6 Liyuan Liu  3   4 Benjamin Duployer  3   4 Per O Å Persson  6 Per Eklund  6 Lars Hultman  6 Mian Li  1 Ke Chen  1 Xian-Hu Zha  1 Shiyu Du  1 Patrick Rozier  3   4 Zhifang Chai  1 Encarnacion Raymundo-Piñero  4   7 Pierre-Louis Taberna  3   4 Patrice Simon  8   9   10 Qing Huang  11
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Free article

A general Lewis acidic etching route for preparing MXenes with enhanced electrochemical performance in non-aqueous electrolyte

Youbing Li et al. Nat Mater. 2020 Aug.
Free article

Erratum in

Abstract

Two-dimensional carbides and nitrides of transition metals, known as MXenes, are a fast-growing family of materials that have attracted attention as energy storage materials. MXenes are mainly prepared from Al-containing MAX phases (where A = Al) by Al dissolution in F-containing solution; most other MAX phases have not been explored. Here a redox-controlled A-site etching of MAX phases in Lewis acidic melts is proposed and validated by the synthesis of various MXenes from unconventional MAX-phase precursors with A elements Si, Zn and Ga. A negative electrode of Ti3C2 MXene material obtained through this molten salt synthesis method delivers a Li+ storage capacity of up to 738 C g-1 (205 mAh g-1) with high charge-discharge rate and a pseudocapacitive-like electrochemical signature in 1 M LiPF6 carbonate-based electrolyte. MXenes prepared via this molten salt synthesis route may prove suitable for use as high-rate negative-electrode materials for electrochemical energy storage applications.

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