1. Li-intercalation chemistry of few-layer borophene with ultrahigh capacity and fast kinetics.
- Author
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Guo, Linlin, Wang, Huili, Wu, Zhonghan, Yang, Xinru, Ma, Ruoxuan, Hu, Yanfang, Li, Geng, Shi, Dongjie, Xie, Wei, Zhang, Wei, Lan, Fujun, Zhou, Limin, and Zhang, Kai
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ELECTRIC batteries , *ACTIVATION energy , *X-ray diffraction , *LITHIUM-ion batteries , *INTERCALATION reactions , *NANOSTRUCTURED materials - Abstract
[Display omitted] • Ultrathin borophene nanosheets (<2 nm) were synthesized. • The superior Li-storage capacity of borophene nanosheets is firstly reported. • In-situ XRD depicts the Li-storage mechanism of borophene nanosheet. Two-dimensional borophene nanosheets (2D BNSs) have been theoretically predicted to be an ideal lithium-storage material owing to their high theoretical capacity and low Li-ion diffusion energy barrier. However, the lithium-storage capability and mechanism of 2D BNSs have not yet been reported until now. Herein, ultrathin 2D BNSs (<2 nm) were successfully fabricated by sonication-assisted liquid exfoliation, and further explored as a Li-storage host. The ultrathin BNSs delivered an ultrahigh capacity of 782.9 mAh/g over 500 cycles at 167 mA/g. The Li-storage mechanism of BNSs was revealed by in-situ X-ray diffraction and the results showed that the Li+ ions intercalate/deintercalate along (2 0 5) plane with the formation of interstitial compound of Li 0.48 B. The charge storage behavior of 2D BNSs was also proved to be dominated by a pseudocapacitance-control process, which contributes to the high-rate capability. This work would accelerate the exploration of emerging 2D materials for high-energy–density lithium-ion batteries. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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