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Flexible and high capacity lithium-ion battery anode based on a carbon nanotube/electrodeposited nickel sulfide paper-like composite

The integration of flexible carbon-based materials and high capacity anode materials is an effective route to obtain superior flexible electrode materials. In this work, nickel sulfide nanoparticles were electrodeposited on a CNT thin film to form a paper-like composite (NS@CNT). As a binder-free fl... Full description

Journal Title: RSC Advances 2017, Vol.7(78), pp.49739-49744
Main Author: Fan, Peng
Other Authors: Liu, Hao , Liao, Libing , Fu, Jinzhou , Wang, Zhen , Lv, Guocheng , Mei, Lefu , Hao, Huiying , Xing, Jie , Dong, Jingjing
Format: Electronic Article Electronic Article
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ID: ISSN: 2046-2069 ; DOI: 10.1039/c7ra08239h
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recordid: rscc7ra08239h
title: Flexible and high capacity lithium-ion battery anode based on a carbon nanotube/electrodeposited nickel sulfide paper-like composite
format: Article
creator:
  • Fan, Peng
  • Liu, Hao
  • Liao, Libing
  • Fu, Jinzhou
  • Wang, Zhen
  • Lv, Guocheng
  • Mei, Lefu
  • Hao, Huiying
  • Xing, Jie
  • Dong, Jingjing
ispartof: RSC Advances, 2017, Vol.7(78), pp.49739-49744
description: The integration of flexible carbon-based materials and high capacity anode materials is an effective route to obtain superior flexible electrode materials. In this work, nickel sulfide nanoparticles were electrodeposited on a CNT thin film to form a paper-like composite (NS@CNT). As a binder-free flexible Li-ion battery anode, a record specific capacity to date of 845 mA h g 1 at a current density of 60 mA g 1 in terms of the mass of the composite has been achieved. The high capacities were mainly attributed to reversible conversion reactions of nickel sulfide and the capacitance effect of the nanostructured composite.
language:
source:
identifier: ISSN: 2046-2069 ; DOI: 10.1039/c7ra08239h
fulltext: fulltext
issn:
  • 2046-2069
  • 20462069
url: Link


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titleFlexible and high capacity lithium-ion battery anode based on a carbon nanotube/electrodeposited nickel sulfide paper-like composite
creatorFan, Peng ; Liu, Hao ; Liao, Libing ; Fu, Jinzhou ; Wang, Zhen ; Lv, Guocheng ; Mei, Lefu ; Hao, Huiying ; Xing, Jie ; Dong, Jingjing
ispartofRSC Advances, 2017, Vol.7(78), pp.49739-49744
identifierISSN: 2046-2069 ; DOI: 10.1039/c7ra08239h
descriptionThe integration of flexible carbon-based materials and high capacity anode materials is an effective route to obtain superior flexible electrode materials. In this work, nickel sulfide nanoparticles were electrodeposited on a CNT thin film to form a paper-like composite (NS@CNT). As a binder-free flexible Li-ion battery anode, a record specific capacity to date of 845 mA h g 1 at a current density of 60 mA g 1 in terms of the mass of the composite has been achieved. The high capacities were mainly attributed to reversible conversion reactions of nickel sulfide and the capacitance effect of the nanostructured composite.
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titleFlexible and high capacity lithium-ion battery anode based on a carbon nanotube/electrodeposited nickel sulfide paper-like composite
descriptionThe integration of flexible carbon-based materials and high capacity anode materials is an effective route to obtain superior flexible electrode materials. In this work, nickel sulfide nanoparticles were electrodeposited on a CNT thin film to form a paper-like composite (NS@CNT). As a binder-free flexible Li-ion battery anode, a record specific capacity to date of 845 mA h g 1 at a current density of 60 mA g 1 in terms of the mass of the composite has been achieved. The high capacities were mainly attributed to reversible conversion reactions of nickel sulfide and the capacitance effect of the nanostructured composite.
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titleFlexible and high capacity lithium-ion battery anode based on a carbon nanotube/electrodeposited nickel sulfide paper-like composite
authorFan, Peng ; Liu, Hao ; Liao, Libing ; Fu, Jinzhou ; Wang, Zhen ; Lv, Guocheng ; Mei, Lefu ; Hao, Huiying ; Xing, Jie ; Dong, Jingjing
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abstractThe integration of flexible carbon-based materials and high capacity anode materials is an effective route to obtain superior flexible electrode materials. In this work, nickel sulfide nanoparticles were electrodeposited on a CNT thin film to form a paper-like composite (NS@CNT). As a binder-free flexible Li-ion battery anode, a record specific capacity to date of 845 mA h g 1 at a current density of 60 mA g 1 in terms of the mass of the composite has been achieved. The high capacities were mainly attributed to reversible conversion reactions of nickel sulfide and the capacitance effect of the nanostructured composite.
doi10.1039/c7ra08239h
pages49739-49744