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Title: | Interface-engineered MoS2/C nanosheet heterostructure arrays for ultra-stable sodium-ion batteries | ||||||||||
Author: | Wang, Haiyan; Jiang, Hao; Hu, Yanjie; Sáha, Petr; Cheng, Qilin; Li, Chunzhong | ||||||||||
Document type: | Peer-reviewed article (English) | ||||||||||
Source document: | Chemical Engineering Science. 2017, vol. 174, p. 104-111 | ||||||||||
ISSN: | 0009-2509 (Sherpa/RoMEO, JCR) | ||||||||||
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DOI: | https://doi.org/10.1016/j.ces.2017.09.007 | ||||||||||
Abstract: | Development of ultra-stable high capacity electrodes is imperative for the widespread commercialization of sodium-ion batteries. Herein, we employed a micro-area etching and surface functionalization strategy to synthesize two-dimensional (2D) MoS2/C nanosheets with a well-defined heterointerface vertically anchored on a carbon cloth. The large MoS2/C nanosheet heterointerface and a high interlayer distance (0.99 nm) not only facilitated Na+ intercalation but also improved the diffusion kinetics of Na+ in the 2D interlayer space. A modulation of the cut-off voltage yielded a high specific capacity of 433 mAh g−1 at 0.2 A g−1 and 232 mAh g−1 at 10 A g−1 within the potential range of 0.4–3.0 V. These values are much higher than that of pure MoS2 nanosheet arrays (162 mAh g−1 at 10 A g−1). More importantly, during the first 1500 cycles, the capacity was maintained at ∼320 mAh g−1 at 1 A g−1, while after 10000 cycles, it became approximately ∼271 mAh g−1 at 3 A g−1. These are the best values ever reported for MoS2-based anode materials for SIBs. Furthermore, after being assembled into a flexible battery, it withstand repeated bending for over 200 times without any obvious capacity loss. Hence, this material is a promising electrode for future flexible batteries. © 2017 Elsevier Ltd | ||||||||||
Full text: | https://www.sciencedirect.com/science/article/pii/S0009250917305523 | ||||||||||
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