Nickel-Cobalt Layered Double Hydroxide Nanosheets for High-performance Supercapacitor Electrode Materials

A facile and novel one‐step method of growing nickel‐cobalt layered double hydroxide (Ni‐Co LDH) hybrid films with ultrathin nanosheets and porous nanostructures on nickel foam is presented using cetyltrimethylammonium bromide as nanostructure growth assisting agent but without any adscititious alka...

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Bibliographic Details
Published inAdvanced functional materials Vol. 24; no. 7; pp. 934 - 942
Main Authors Chen, Hao, Hu, Linfeng, Chen, Min, Yan, Yan, Wu, Limin
Format Journal Article
LanguageEnglish
Published Blackwell Publishing Ltd 01.02.2014
Subjects
Asymmetry
Capacitors
Electrode materials
electrodes
Energy density
hydrothermal processes
Hydroxides
nanosheets
Nanostructure
Nickel
nickel-cobalt
reduced graphene oxide
Supercapacitors
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Abstract A facile and novel one‐step method of growing nickel‐cobalt layered double hydroxide (Ni‐Co LDH) hybrid films with ultrathin nanosheets and porous nanostructures on nickel foam is presented using cetyltrimethylammonium bromide as nanostructure growth assisting agent but without any adscititious alkali sources and oxidants. As pseudocapacitors, the as‐obtained Ni‐Co LDH hybrid film‐based electrodes display a significantly enhanced specific capacitance (2682 F g−1 at 3 A g−1, based on active materials) and energy density (77.3 Wh kg−1 at 623 W kg−1), compared to most previously reported electrodes based on nickel‐cobalt oxides/hydroxides. Moreover, the asymmetric supercapacitor, with the Ni‐Co LDH hybrid film as the positive electrode material and porous freeze‐dried reduced graphene oxide (RGO) as the negative electrode material, exhibits an ultrahigh energy density (188 Wh kg−1) at an average power density of 1499 W kg−1 based on the mass of active material, which greatly exceeds the energy densities of most previously reported nickel or cobalt oxide/hydroxide‐based asymmetric supercapacitors. Ni–Co LDH electrode materials with ultrahigh capacitive performance are prepared. The capacitive performances of as‐obtained Ni–Co LDHs for pseudocapacitors and asymmetric supercapacitors significantly exceed those of most similar reported materials. This synthesis method can also be extended to synthesize other bimetallic LDHs with high electrochemical activity.
AbstractList A facile and novel one‐step method of growing nickel‐cobalt layered double hydroxide (Ni‐Co LDH) hybrid films with ultrathin nanosheets and porous nanostructures on nickel foam is presented using cetyltrimethylammonium bromide as nanostructure growth assisting agent but without any adscititious alkali sources and oxidants. As pseudocapacitors, the as‐obtained Ni‐Co LDH hybrid film‐based electrodes display a significantly enhanced specific capacitance (2682 F g −1 at 3 A g −1 , based on active materials) and energy density (77.3 Wh kg −1 at 623 W kg −1 ), compared to most previously reported electrodes based on nickel‐cobalt oxides/hydroxides. Moreover, the asymmetric supercapacitor, with the Ni‐Co LDH hybrid film as the positive electrode material and porous freeze‐dried reduced graphene oxide (RGO) as the negative electrode material, exhibits an ultrahigh energy density (188 Wh kg −1 ) at an average power density of 1499 W kg −1 based on the mass of active material, which greatly exceeds the energy densities of most previously reported nickel or cobalt oxide/hydroxide‐based asymmetric supercapacitors.
A facile and novel one‐step method of growing nickel‐cobalt layered double hydroxide (Ni‐Co LDH) hybrid films with ultrathin nanosheets and porous nanostructures on nickel foam is presented using cetyltrimethylammonium bromide as nanostructure growth assisting agent but without any adscititious alkali sources and oxidants. As pseudocapacitors, the as‐obtained Ni‐Co LDH hybrid film‐based electrodes display a significantly enhanced specific capacitance (2682 F g−1 at 3 A g−1, based on active materials) and energy density (77.3 Wh kg−1 at 623 W kg−1), compared to most previously reported electrodes based on nickel‐cobalt oxides/hydroxides. Moreover, the asymmetric supercapacitor, with the Ni‐Co LDH hybrid film as the positive electrode material and porous freeze‐dried reduced graphene oxide (RGO) as the negative electrode material, exhibits an ultrahigh energy density (188 Wh kg−1) at an average power density of 1499 W kg−1 based on the mass of active material, which greatly exceeds the energy densities of most previously reported nickel or cobalt oxide/hydroxide‐based asymmetric supercapacitors. Ni–Co LDH electrode materials with ultrahigh capacitive performance are prepared. The capacitive performances of as‐obtained Ni–Co LDHs for pseudocapacitors and asymmetric supercapacitors significantly exceed those of most similar reported materials. This synthesis method can also be extended to synthesize other bimetallic LDHs with high electrochemical activity.
A facile and novel one-step method of growing nickel-cobalt layered double hydroxide (Ni-Co LDH) hybrid films with ultrathin nanosheets and porous nanostructures on nickel foam is presented using cetyltrimethylammonium bromide as nanostructure growth assisting agent but without any adscititious alkali sources and oxidants. As pseudocapacitors, the as-obtained Ni-Co LDH hybrid film-based electrodes display a significantly enhanced specific capacitance (2682 F g super(-1) at 3 A g super(-1), based on active materials) and energy density (77.3 Wh kg super(-1) at 623 W kg super(-1)), compared to most previously reported electrodes based on nickel-cobalt oxides/hydroxides. Moreover, the asymmetric supercapacitor, with the Ni-Co LDH hybrid film as the positive electrode material and porous freeze-dried reduced graphene oxide (RGO) as the negative electrode material, exhibits an ultrahigh energy density (188 Wh kg super(-1)) at an average power density of 1499 W kg super(-1) based on the mass of active material, which greatly exceeds the energy densities of most previously reported nickel or cobalt oxide/hydroxide-based asymmetric supercapacitors. Ni-Co LDH electrode materials with ultrahigh capacitive performance are prepared. The capacitive performances of as-obtained Ni-Co LDHs for pseudocapacitors and asymmetric supercapacitors significantly exceed those of most similar reported materials. This synthesis method can also be extended to synthesize other bimetallic LDHs with high electrochemical activity.
Author Hu, Linfeng
Chen, Min
Yan, Yan
Wu, Limin
Chen, Hao
Author_xml – sequence: 1
  givenname: Hao
  surname: Chen
  fullname: Chen, Hao
  organization: Department of Materials Science and Advanced Materials Laboratory, Fudan University, 200433, Shanghai, China
– sequence: 2
  givenname: Linfeng
  surname: Hu
  fullname: Hu, Linfeng
  organization: Department of Materials Science and Advanced Materials Laboratory, Fudan University, 200433, Shanghai, China
– sequence: 3
  givenname: Min
  surname: Chen
  fullname: Chen, Min
  organization: Department of Materials Science and Advanced Materials Laboratory, Fudan University, 200433, Shanghai, China
– sequence: 4
  givenname: Yan
  surname: Yan
  fullname: Yan, Yan
  organization: Department of Materials Science and Advanced Materials Laboratory, Fudan University, 200433, Shanghai, China
– sequence: 5
  givenname: Limin
  surname: Wu
  fullname: Wu, Limin
  email: lmw@fudan.edu.cn
  organization: Department of Materials Science and Advanced Materials Laboratory, Fudan University, 200433, Shanghai, China
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Snippet A facile and novel one‐step method of growing nickel‐cobalt layered double hydroxide (Ni‐Co LDH) hybrid films with ultrathin nanosheets and porous...
A facile and novel one-step method of growing nickel-cobalt layered double hydroxide (Ni-Co LDH) hybrid films with ultrathin nanosheets and porous...
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SubjectTerms Asymmetry
Capacitors
Electrode materials
electrodes
Energy density
hydrothermal processes
Hydroxides
nanosheets
Nanostructure
Nickel
nickel-cobalt
reduced graphene oxide
Supercapacitors
Title Nickel-Cobalt Layered Double Hydroxide Nanosheets for High-performance Supercapacitor Electrode Materials
URI https://api.istex.fr/ark:/67375/WNG-BTMRMPHK-M/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fadfm.201301747
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Volume 24
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