Oxide based supercapacitors: II-other oxides

Ling Bing Kong; Wenxiu Que; Lang Liu; Freddy Yin Chiang Boey; Zhichuan J. Xu; Kun Zhou; Sean Li; Tianshu Zhang; Chuanhu Wang

doi:10.1201/9781315153025

Oxide based supercapacitors: II-other oxides

Ling Bing Kong^*, Wenxiu Que, Lang Liu, Freddy Yin Chiang Boey, Zhichuan J. Xu, Kun Zhou, Sean Li, Tianshu Zhang, Chuanhu Wang

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

As discussed in the last chapter, oxides exhibit strong pseudocapacitive effect, thus making them promising candidates as electrodes of supercapacitors. Besides manganese oxides, various other oxides and complex oxides, such as V2O5 [1-3], Fe2O3 [4, 5], Fe3O4 [6-8], Co3O4 [9], NiO [10], CuO [11, 12], ZnO [13, 14], WO₃ [15], MoO₃ [16], RuO₂ [17-20], NiCo₂O₄ [21-23] and ferrites [24-26], have been developed in various forms, such as pure oxides, nanohybrids and nanocomposites, with outstanding electrochemical performances as electrodes of supercapacitors. From the morphology point of view, they can be presented as nanoparticles, nanowires, nanorods, nanotubes, nanosheets, nanoneedles, nanoflakes and nanoflowers, which can be developed by using different methods, including hydrothermal, solvothermal, chemical precipitation, chemical bath deposition, sol-gel, electrodeposition and microwave assisted synthetic routes. They have also been incorporated with other components, such as CNTs, graphenes and conductive polymers, to form 0D-3D nanostructured materials. However, due to the space limitation, this chapter only covers Co₃O₄ [9] and NiO [10], as well as their corresponding complex oxide NiCo₂O₄ [21-23], as representatives.

Original language	English
Title of host publication	Nanomaterials for Supercapacitors
Publisher	CRC Press
Pages	277-421
Number of pages	145
ISBN (Electronic)	9781498758437
ISBN (Print)	9781498758420
DOIs	https://doi.org/10.1201/9781315153025
Publication status	Published - Jan 1 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2018 by Taylor & Francis Group, LLC.

ASJC Scopus Subject Areas

General Engineering
General Chemical Engineering
General Materials Science

Keywords

Chemical solution deposition (CSD)
CoO
CuO
Electrodeposition
FeO
FeO
Hybrids
Hydrothermal/solvothermal processing
MoO
Nanocomposites
Nanostructures
NiCoO and ferrites
NiO
NiO
Pseudocapacitive effect
Pseudocapacitor
RuO
Sol-gel deposition
Spray deposition
Supercapacitor
Thin film
VO
WO
ZnO

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10.1201/9781315153025

Cite this

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title = "Oxide based supercapacitors: II-other oxides",

abstract = "As discussed in the last chapter, oxides exhibit strong pseudocapacitive effect, thus making them promising candidates as electrodes of supercapacitors. Besides manganese oxides, various other oxides and complex oxides, such as V2O5 [1-3], Fe2O3 [4, 5], Fe3O4 [6-8], Co3O4 [9], NiO [10], CuO [11, 12], ZnO [13, 14], WO3 [15], MoO3 [16], RuO2 [17-20], NiCo2O4 [21-23] and ferrites [24-26], have been developed in various forms, such as pure oxides, nanohybrids and nanocomposites, with outstanding electrochemical performances as electrodes of supercapacitors. From the morphology point of view, they can be presented as nanoparticles, nanowires, nanorods, nanotubes, nanosheets, nanoneedles, nanoflakes and nanoflowers, which can be developed by using different methods, including hydrothermal, solvothermal, chemical precipitation, chemical bath deposition, sol-gel, electrodeposition and microwave assisted synthetic routes. They have also been incorporated with other components, such as CNTs, graphenes and conductive polymers, to form 0D-3D nanostructured materials. However, due to the space limitation, this chapter only covers Co3O4 [9] and NiO [10], as well as their corresponding complex oxide NiCo2O4 [21-23], as representatives.",

keywords = "Chemical solution deposition (CSD), CoO, CuO, Electrodeposition, FeO, FeO, Hybrids, Hydrothermal/solvothermal processing, MoO, Nanocomposites, Nanostructures, NiCoO and ferrites, NiO, NiO, Pseudocapacitive effect, Pseudocapacitor, RuO, Sol-gel deposition, Spray deposition, Supercapacitor, Thin film, VO, WO, ZnO",

author = "Kong, \{Ling Bing\} and Wenxiu Que and Lang Liu and Boey, \{Freddy Yin Chiang\} and Xu, \{Zhichuan J.\} and Kun Zhou and Sean Li and Tianshu Zhang and Chuanhu Wang",

note = "Publisher Copyright: {\textcopyright} 2018 by Taylor \& Francis Group, LLC.",

year = "2017",

month = jan,

day = "1",

doi = "10.1201/9781315153025",

language = "English",

isbn = "9781498758420",

pages = "277--421",

booktitle = "Nanomaterials for Supercapacitors",

publisher = "CRC Press",

}

TY - CHAP

T1 - Oxide based supercapacitors

T2 - II-other oxides

AU - Kong, Ling Bing

AU - Que, Wenxiu

AU - Liu, Lang

AU - Boey, Freddy Yin Chiang

AU - Xu, Zhichuan J.

AU - Zhou, Kun

AU - Li, Sean

AU - Zhang, Tianshu

AU - Wang, Chuanhu

PY - 2017/1/1

Y1 - 2017/1/1

N2 - As discussed in the last chapter, oxides exhibit strong pseudocapacitive effect, thus making them promising candidates as electrodes of supercapacitors. Besides manganese oxides, various other oxides and complex oxides, such as V2O5 [1-3], Fe2O3 [4, 5], Fe3O4 [6-8], Co3O4 [9], NiO [10], CuO [11, 12], ZnO [13, 14], WO3 [15], MoO3 [16], RuO2 [17-20], NiCo2O4 [21-23] and ferrites [24-26], have been developed in various forms, such as pure oxides, nanohybrids and nanocomposites, with outstanding electrochemical performances as electrodes of supercapacitors. From the morphology point of view, they can be presented as nanoparticles, nanowires, nanorods, nanotubes, nanosheets, nanoneedles, nanoflakes and nanoflowers, which can be developed by using different methods, including hydrothermal, solvothermal, chemical precipitation, chemical bath deposition, sol-gel, electrodeposition and microwave assisted synthetic routes. They have also been incorporated with other components, such as CNTs, graphenes and conductive polymers, to form 0D-3D nanostructured materials. However, due to the space limitation, this chapter only covers Co3O4 [9] and NiO [10], as well as their corresponding complex oxide NiCo2O4 [21-23], as representatives.

AB - As discussed in the last chapter, oxides exhibit strong pseudocapacitive effect, thus making them promising candidates as electrodes of supercapacitors. Besides manganese oxides, various other oxides and complex oxides, such as V2O5 [1-3], Fe2O3 [4, 5], Fe3O4 [6-8], Co3O4 [9], NiO [10], CuO [11, 12], ZnO [13, 14], WO3 [15], MoO3 [16], RuO2 [17-20], NiCo2O4 [21-23] and ferrites [24-26], have been developed in various forms, such as pure oxides, nanohybrids and nanocomposites, with outstanding electrochemical performances as electrodes of supercapacitors. From the morphology point of view, they can be presented as nanoparticles, nanowires, nanorods, nanotubes, nanosheets, nanoneedles, nanoflakes and nanoflowers, which can be developed by using different methods, including hydrothermal, solvothermal, chemical precipitation, chemical bath deposition, sol-gel, electrodeposition and microwave assisted synthetic routes. They have also been incorporated with other components, such as CNTs, graphenes and conductive polymers, to form 0D-3D nanostructured materials. However, due to the space limitation, this chapter only covers Co3O4 [9] and NiO [10], as well as their corresponding complex oxide NiCo2O4 [21-23], as representatives.

KW - Chemical solution deposition (CSD)

KW - CoO

KW - CuO

KW - Electrodeposition

KW - FeO

KW - Hybrids

KW - Hydrothermal/solvothermal processing

KW - MoO

KW - Nanocomposites

KW - Nanostructures

KW - NiCoO and ferrites

KW - NiO

KW - Pseudocapacitive effect

KW - Pseudocapacitor

KW - RuO

KW - Sol-gel deposition

KW - Spray deposition

KW - Supercapacitor

KW - Thin film

KW - VO

KW - WO

KW - ZnO

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UR - http://www.scopus.com/inward/citedby.url?scp=85053522424&partnerID=8YFLogxK

U2 - 10.1201/9781315153025

DO - 10.1201/9781315153025

M3 - Chapter

AN - SCOPUS:85053522424

SN - 9781498758420

SP - 277

EP - 421

BT - Nanomaterials for Supercapacitors

PB - CRC Press

ER -

Oxide based supercapacitors: II-other oxides

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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