期刊论文详细信息
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Synthesis of new two‐dimensional titanium carbonitride Ti2C0.5N0.5Tx MXene and its performance as an electrode material for sodium‐ion battery
Feipeng Yang1  Jinghua Guo1  Kaitlyn Prenger2  Anika Tabassum2  Michael Naguib2  Ahmad Majed2  Kun Liang2  Jeffrey J. Urban3  Chaochao Dun3 
[1] Advanced Light Source Lawrence Berkeley National Laboratory Berkeley California USA;
[2] Department of Physics and Engineering Physics Tulane University New Orleans Louisiana USA;
[3] The Molecular Foundry Lawrence Berkeley National Laboratory Berkeley California USA;
关键词: MXene;    sodium‐ion battery;    titanium carbonitride;    two‐dimensional;   
DOI  :  10.1002/inf2.12269
来源: DOAJ
【 摘 要 】

Abstract Two‐dimensional (2D) layered transition metal carbides/nitrides, called MXenes, are attractive alternative electrode materials for electrochemical energy storage. Owing to their metallic electrical conductivity and low ion diffusion barrier, MXenes are promising anode materials for sodium‐ion batteries (SIBs). Herein, we report on a new 2D carbonitride MXene, viz., Ti2C0.5N0.5Tx (Tx stands for surface terminations), and the only second carbonitride after Ti3CNTx so far. A new type of in situ HF (HCl/KF) etching condition was employed to synthesize multilayer Ti2C0.5N0.5Tx powders from Ti2AlC0.5N0.5. Spontaneous intercalation of tetramethylammonium followed by sonication in water allowed for large‐scale delamination of this new titanium carbonitride into 2D sheets. Multilayer Ti2C0.5N0.5Tx powders showed higher specific capacities and larger electroactive surface area than those of Ti2CTx powders. Multilayer Ti2C0.5N0.5Tx powders show a specific capacity of 182 mAh g−1 at 20 mA g−1, the highest among all reported MXene electrodes as SIBs with excellent cycling stability.

【 授权许可】

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