High-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3D nickel foam prepared by sparking and electrodeposition

High-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3D nickel foam prepared by sparking and electrodeposition

© 2020 Elsevier B.V. In the present work, nickel oxide (NiO) and nickel-cobalt double hydroxide (NiCo-DH) nanocomposites on Ni foams were synthesized for the first time and systemically optimized for charge storage applications. NiO nanoparticles were sparked on Ni foams followed by the electrodepos...

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Main Authors: Yaowamarn Chuminjak, Pisith Singjai, Adisorn Tuantranont, Chakrit Sriprachuabwong, Anurat Wisitsoraat
Format: Journal
Published: 2020
Subjects:
Engineering
Materials Science
Online Access:https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85085655564&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/70547
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-705472020-10-14T08:37:59Z High-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3D nickel foam prepared by sparking and electrodeposition Yaowamarn Chuminjak Pisith Singjai Adisorn Tuantranont Chakrit Sriprachuabwong Anurat Wisitsoraat Engineering Materials Science © 2020 Elsevier B.V. In the present work, nickel oxide (NiO) and nickel-cobalt double hydroxide (NiCo-DH) nanocomposites on Ni foams were synthesized for the first time and systemically optimized for charge storage applications. NiO nanoparticles were sparked on Ni foams followed by the electrodeposition of NiCo-DH with various times ranging from 50 to 400 s. Structural characterization results by electron microscopy, Raman spectroscopy and X-ray spectroscopy revealed that 5–10 nm sparked NiO nanoparticles acted as the nucleation seeds for the formation of smaller NiCo-DH nanostructures resulting in an increase of surface area at a moderate electrodeposition times of 100 s and induced metallic Ni and Co species on the composite layer. From electrochemical measurements, the optimal electrodeposition time of 100 s provided a moderate mass loading of 0.6 mg cm−2 and a high specific capacity of 938 C g−1 (1876 F g−1) @ 1 A g−1 with a good rate capability of 69% (647.5 C g−1) @ 20 A g−1. Additionally, a decent capacity retention of 97% was attained after 1000 cycles @ 4 A g−1. The results could be attributed to high surface capacity of NiO + NiCo-DH nanocomposite structures and high electrical conductivity with a low effective series resistance of 0.39 Ω. 2020-10-14T08:33:25Z 2020-10-14T08:33:25Z 2020-11-15 Journal 09258388 2-s2.0-85085655564 10.1016/j.jallcom.2020.155793 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85085655564&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/70547
institution Chiang Mai University
building Chiang Mai University Library
continent Asia
country Thailand
Thailand
content_provider Chiang Mai University Library
collection CMU Intellectual Repository
topic Engineering
Materials Science
spellingShingle Engineering
Materials Science
Yaowamarn Chuminjak
Pisith Singjai
Adisorn Tuantranont
Chakrit Sriprachuabwong
Anurat Wisitsoraat
High-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3D nickel foam prepared by sparking and electrodeposition
description © 2020 Elsevier B.V. In the present work, nickel oxide (NiO) and nickel-cobalt double hydroxide (NiCo-DH) nanocomposites on Ni foams were synthesized for the first time and systemically optimized for charge storage applications. NiO nanoparticles were sparked on Ni foams followed by the electrodeposition of NiCo-DH with various times ranging from 50 to 400 s. Structural characterization results by electron microscopy, Raman spectroscopy and X-ray spectroscopy revealed that 5–10 nm sparked NiO nanoparticles acted as the nucleation seeds for the formation of smaller NiCo-DH nanostructures resulting in an increase of surface area at a moderate electrodeposition times of 100 s and induced metallic Ni and Co species on the composite layer. From electrochemical measurements, the optimal electrodeposition time of 100 s provided a moderate mass loading of 0.6 mg cm−2 and a high specific capacity of 938 C g−1 (1876 F g−1) @ 1 A g−1 with a good rate capability of 69% (647.5 C g−1) @ 20 A g−1. Additionally, a decent capacity retention of 97% was attained after 1000 cycles @ 4 A g−1. The results could be attributed to high surface capacity of NiO + NiCo-DH nanocomposite structures and high electrical conductivity with a low effective series resistance of 0.39 Ω.
format Journal
author Yaowamarn Chuminjak
Pisith Singjai
Adisorn Tuantranont
Chakrit Sriprachuabwong
Anurat Wisitsoraat
author_facet Yaowamarn Chuminjak
Pisith Singjai
Adisorn Tuantranont
Chakrit Sriprachuabwong
Anurat Wisitsoraat
author_sort Yaowamarn Chuminjak
title High-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3D nickel foam prepared by sparking and electrodeposition
title_short High-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3D nickel foam prepared by sparking and electrodeposition
title_full High-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3D nickel foam prepared by sparking and electrodeposition
title_fullStr High-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3D nickel foam prepared by sparking and electrodeposition
title_full_unstemmed High-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3D nickel foam prepared by sparking and electrodeposition
title_sort high-capacity charge storage electrodes based on nickel oxide and nickel–cobalt double hydroxide nanocomposites on 3d nickel foam prepared by sparking and electrodeposition
publishDate 2020
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85085655564&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/70547
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