Hierarchical silicon nanowires-carbon textiles matrix as a binder-free anode for high-performance advanced lithium-ion batteries

Toward the increasing demands of portable energy storage and electric vehicle applications, the widely used graphite anodes with significant drawbacks become more and more unsuitable. Herein, we report a novel scaffold of hierarchical silicon nanowires-carbon textiles anodes fabricated via a facile...

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Published inScientific reports Vol. 3; no. 1; p. 1622
Main Authors Liu, Bin, Wang, Xianfu, Chen, Haitian, Wang, Zhuoran, Chen, Di, Cheng, Yi-Bing, Zhou, Chongwu, Shen, Guozhen
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 09.04.2013
Nature Publishing Group
Subjects
639/301/299/891
639/638/298/917
639/925/357/1016
704/172/169
Anodes
Electric vehicles
Energy storage
Graphite
Humanities and Social Sciences
Lithium
multidisciplinary
Nanotechnology
Nanowires
Science
Silicon
Specific capacity
Temperature effects
Textiles
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Abstract Toward the increasing demands of portable energy storage and electric vehicle applications, the widely used graphite anodes with significant drawbacks become more and more unsuitable. Herein, we report a novel scaffold of hierarchical silicon nanowires-carbon textiles anodes fabricated via a facile method. Further, complete lithium-ion batteries based on Si and commercial LiCoO 2 materials were assembled to investigate their corresponding across-the-aboard performances, demonstrating their enhanced specific capacity (2950 mAh g −1 at 0.2 C), good repeatability/rate capability (even >900 mAh g −1 at high rate of 5 C), long cycling life and excellent stability in various external conditions (curvature, temperature and humidity). Above results light the way to principally replacing graphite anodes with silicon-based electrodes which was confirmed to have better comprehensive performances.
AbstractList Toward the increasing demands of portable energy storage and electric vehicle applications, the widely used graphite anodes with significant drawbacks become more and more unsuitable. Herein, we report a novel scaffold of hierarchical silicon nanowires-carbon textiles anodes fabricated via a facile method. Further, complete lithium-ion batteries based on Si and commercial LiCoO2 materials were assembled to investigate their corresponding across-the-aboard performances, demonstrating their enhanced specific capacity (2950 mAh g(-1) at 0.2 C), good repeatability/rate capability (even >900 mAh g(-1) at high rate of 5 C), long cycling life, and excellent stability in various external conditions (curvature, temperature, and humidity). Above results light the way to principally replacing graphite anodes with silicon-based electrodes which was confirmed to have better comprehensive performances.
Toward the increasing demands of portable energy storage and electric vehicle applications, the widely used graphite anodes with significant drawbacks become more and more unsuitable. Herein, we report a novel scaffold of hierarchical silicon nanowires-carbon textiles anodes fabricated via a facile method. Further, complete lithium-ion batteries based on Si and commercial LiCoO2 materials were assembled to investigate their corresponding across-the-aboard performances, demonstrating their enhanced specific capacity (2950 mAh g(-1) at 0.2 C), good repeatability/rate capability (even >900 mAh g(-1) at high rate of 5 C), long cycling life, and excellent stability in various external conditions (curvature, temperature, and humidity). Above results light the way to principally replacing graphite anodes with silicon-based electrodes which was confirmed to have better comprehensive performances.Toward the increasing demands of portable energy storage and electric vehicle applications, the widely used graphite anodes with significant drawbacks become more and more unsuitable. Herein, we report a novel scaffold of hierarchical silicon nanowires-carbon textiles anodes fabricated via a facile method. Further, complete lithium-ion batteries based on Si and commercial LiCoO2 materials were assembled to investigate their corresponding across-the-aboard performances, demonstrating their enhanced specific capacity (2950 mAh g(-1) at 0.2 C), good repeatability/rate capability (even >900 mAh g(-1) at high rate of 5 C), long cycling life, and excellent stability in various external conditions (curvature, temperature, and humidity). Above results light the way to principally replacing graphite anodes with silicon-based electrodes which was confirmed to have better comprehensive performances.
Toward the increasing demands of portable energy storage and electric vehicle applications, the widely used graphite anodes with significant drawbacks become more and more unsuitable. Herein, we report a novel scaffold of hierarchical silicon nanowires-carbon textiles anodes fabricated via a facile method. Further, complete lithium-ion batteries based on Si and commercial LiCoO 2 materials were assembled to investigate their corresponding across-the-aboard performances, demonstrating their enhanced specific capacity (2950 mAh g −1 at 0.2 C), good repeatability/rate capability (even >900 mAh g −1 at high rate of 5 C), long cycling life and excellent stability in various external conditions (curvature, temperature and humidity). Above results light the way to principally replacing graphite anodes with silicon-based electrodes which was confirmed to have better comprehensive performances.
ArticleNumber 1622
Author Liu, Bin
Chen, Di
Cheng, Yi-Bing
Shen, Guozhen
Chen, Haitian
Wang, Xianfu
Wang, Zhuoran
Zhou, Chongwu
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  givenname: Haitian
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  organization: Wuhan National Laboratory for Optoelectronics (WNLO) and College of Optical and Electronic Information, Huazhong University of Science and Technology (HUST)
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  organization: Wuhan National Laboratory for Optoelectronics (WNLO) and College of Optical and Electronic Information, Huazhong University of Science and Technology (HUST)
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  organization: Department of Electric Engineering, University of Southern California
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  organization: Wuhan National Laboratory for Optoelectronics (WNLO) and College of Optical and Electronic Information, Huazhong University of Science and Technology (HUST), State Key Laboratory for Superlattices and Microstructures, Institute of Semiconductors, Chinese Academy of Sciences
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Snippet Toward the increasing demands of portable energy storage and electric vehicle applications, the widely used graphite anodes with significant drawbacks become...
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639/638/298/917
639/925/357/1016
704/172/169
Anodes
Electric vehicles
Energy storage
Graphite
Humanities and Social Sciences
Lithium
multidisciplinary
Nanotechnology
Nanowires
Science
Silicon
Specific capacity
Temperature effects
Textiles
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Title Hierarchical silicon nanowires-carbon textiles matrix as a binder-free anode for high-performance advanced lithium-ion batteries
URI https://link.springer.com/article/10.1038/srep01622
https://www.ncbi.nlm.nih.gov/pubmed/23572030
https://www.proquest.com/docview/1897431393
https://www.proquest.com/docview/1326143099
https://pubmed.ncbi.nlm.nih.gov/PMC3621141
Volume 3
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