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One-step solvothermal synthesis of BiSbTe3/N-doped reduced graphene oxide composite as lithium-ion batteries anode materials
Zhu, YQ; Zhao, JC; Li, LJ; Mao, JF; Xu, JL; Jin, J
2020-11-02
Source PublicationCHEMICAL ENGINEERING SCIENCE
ISSN0009-2509
SubtypeArticle
AbstractBiSbTe3/nitrogen-doped reduced graphene oxide (N-rGO) nanocomposite was synthesized via one-pot. As a new anode material for Li-ion storage, BiSbTe3/N-rGO electrode shows enhanced cyclability with a capacity of 388.7 mAh g(-1) after 80 cycles at 100 mA g(-1), which is significantly higher than that of BiSbTe3 (133.7 mAh g(-1)). The prominent electrochemical performance is owing to the nitrogen-doped reduced graphene oxide, which can not only enhance the electrical conductivity of BiSbTe3 nanocomposite, but also stem its agglomeration. Electrochemical kinetic analysis of BiSbTe3/N-rGO indicates that most of the capacity stems from the capacitive contribution, which can improve the rate performance of BiSbTe3/N-rGO electrode. This work forecasts that BiSbTe3/N-rGO has a promising application for LIBs. (c) 2020 Elsevier Ltd. All rights reserved.
DOI10.1016/j.ces.2020.115829
WOS KeywordNITROGEN-DOPED CARBON ; LI-ION ; PERFORMANCE ; CAPABILITY ; NANOSHEETS ; NANOCUBES ; GROWTH ; ZNSE ; TE
Language英语
WOS Research AreaEngineering
PublisherPERGAMON-ELSEVIER SCIENCE LTD
Citation statistics
Document Type期刊论文
Identifierhttp://ir.sic.ac.cn/handle/331005/27638
Collection中国科学院上海硅酸盐研究所
Recommended Citation
GB/T 7714		 Zhu, YQ,Zhao, JC,Li, LJ,et al. One-step solvothermal synthesis of BiSbTe3/N-doped reduced graphene oxide composite as lithium-ion batteries anode materials[J]. CHEMICAL ENGINEERING SCIENCE,2020.
APA Zhu, YQ,Zhao, JC,Li, LJ,Mao, JF,Xu, JL,&Jin, J.(2020).One-step solvothermal synthesis of BiSbTe3/N-doped reduced graphene oxide composite as lithium-ion batteries anode materials.CHEMICAL ENGINEERING SCIENCE.
MLA Zhu, YQ,et al."One-step solvothermal synthesis of BiSbTe3/N-doped reduced graphene oxide composite as lithium-ion batteries anode materials".CHEMICAL ENGINEERING SCIENCE (2020).
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