Ni–Co Binary Hydroxide Nanotubes with Three-Dimensionally Structured Nanoflakes: Synthesis and Application as Cathode Materials for Hybrid Supercapacitors

Ziyang Dai; Jianjian Lin; Qiuchun Dong; Zhihui Yin; Xiaoxian Zang; Lei Shen; Jung Ho Kim; Wei Huang; Saad M. Alshehri; Christine Young; Yusuke Yamauchi; Xiaochen Dong

doi:10.1002/chem.201701251

Ni–Co Binary Hydroxide Nanotubes with Three-Dimensionally Structured Nanoflakes: Synthesis and Application as Cathode Materials for Hybrid Supercapacitors

Ziyang Dai, Jianjian Lin, Qiuchun Dong, Zhihui Yin, Xiaoxian Zang, Lei Shen, Jung Ho Kim, Wei Huang, Saad M. Alshehri, Christine Young, Yusuke Yamauchi, Xiaochen Dong

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Nickel–cobalt binary hydroxide nanotubes were fabricated by a facile synthetic approach by using Cu₂O nanowires as sacrificial templates. The surface morphology of the binary hydroxide nanotubes can be easily controlled by adjusting the molar ratio of Ni to Co. With increasing Co content, the surfaces of the nanotubes tend to form hierarchical nanoflakes. The obtained nanotubes with high specific surface area exhibit typical battery-like electrochemical behavior. Among them, Ni–Co hydroxide nanotubes with Ni:Co=48:52 showed outstanding electrochemical characteristics, with a specific capacity of 209.9 mAh g⁻¹ at 1 Ag⁻¹ and remarkable cycling stability with 84.4 % capacity retention after 10 000 cycles at 20 A g⁻¹. With the advantages of their unique nanostructure and the synergistic effect of the two elements, the Ni–Co binary hydroxide nanotubes are expected to be effective potential cathode materials for hybrid supercapacitors.

Original language	English
Pages (from-to)	10133-10138
Number of pages	6
Journal	Chemistry - A European Journal
Volume	23
Issue number	42
DOIs	https://doi.org/10.1002/chem.201701251
State	Published - 26 Jul 2017

Keywords

cobalt
nanotubes
nickel
supercapacitors
template synthesis

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10.1002/chem.201701251

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Dai, Z., Lin, J., Dong, Q., Yin, Z., Zang, X., Shen, L., Kim, J. H., Huang, W., Alshehri, S. M., Young, C., Yamauchi, Y., & Dong, X. (2017). Ni–Co Binary Hydroxide Nanotubes with Three-Dimensionally Structured Nanoflakes: Synthesis and Application as Cathode Materials for Hybrid Supercapacitors. Chemistry - A European Journal, 23(42), 10133-10138. https://doi.org/10.1002/chem.201701251

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title = "Ni–Co Binary Hydroxide Nanotubes with Three-Dimensionally Structured Nanoflakes: Synthesis and Application as Cathode Materials for Hybrid Supercapacitors",

abstract = "Nickel–cobalt binary hydroxide nanotubes were fabricated by a facile synthetic approach by using Cu2O nanowires as sacrificial templates. The surface morphology of the binary hydroxide nanotubes can be easily controlled by adjusting the molar ratio of Ni to Co. With increasing Co content, the surfaces of the nanotubes tend to form hierarchical nanoflakes. The obtained nanotubes with high specific surface area exhibit typical battery-like electrochemical behavior. Among them, Ni–Co hydroxide nanotubes with Ni:Co=48:52 showed outstanding electrochemical characteristics, with a specific capacity of 209.9 mAh g−1 at 1 Ag−1 and remarkable cycling stability with 84.4 % capacity retention after 10 000 cycles at 20 A g−1. With the advantages of their unique nanostructure and the synergistic effect of the two elements, the Ni–Co binary hydroxide nanotubes are expected to be effective potential cathode materials for hybrid supercapacitors.",

keywords = "cobalt, nanotubes, nickel, supercapacitors, template synthesis",

author = "Ziyang Dai and Jianjian Lin and Qiuchun Dong and Zhihui Yin and Xiaoxian Zang and Lei Shen and Kim, {Jung Ho} and Wei Huang and Alshehri, {Saad M.} and Christine Young and Yusuke Yamauchi and Xiaochen Dong",

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Dai, Z, Lin, J, Dong, Q, Yin, Z, Zang, X, Shen, L, Kim, JH, Huang, W, Alshehri, SM, Young, C, Yamauchi, Y & Dong, X 2017, 'Ni–Co Binary Hydroxide Nanotubes with Three-Dimensionally Structured Nanoflakes: Synthesis and Application as Cathode Materials for Hybrid Supercapacitors', Chemistry - A European Journal, vol. 23, no. 42, pp. 10133-10138. https://doi.org/10.1002/chem.201701251

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T1 - Ni–Co Binary Hydroxide Nanotubes with Three-Dimensionally Structured Nanoflakes

T2 - Synthesis and Application as Cathode Materials for Hybrid Supercapacitors

AU - Dai, Ziyang

AU - Lin, Jianjian

AU - Dong, Qiuchun

AU - Yin, Zhihui

AU - Zang, Xiaoxian

AU - Shen, Lei

AU - Kim, Jung Ho

AU - Huang, Wei

AU - Alshehri, Saad M.

AU - Young, Christine

AU - Yamauchi, Yusuke

AU - Dong, Xiaochen

PY - 2017/7/26

Y1 - 2017/7/26

N2 - Nickel–cobalt binary hydroxide nanotubes were fabricated by a facile synthetic approach by using Cu2O nanowires as sacrificial templates. The surface morphology of the binary hydroxide nanotubes can be easily controlled by adjusting the molar ratio of Ni to Co. With increasing Co content, the surfaces of the nanotubes tend to form hierarchical nanoflakes. The obtained nanotubes with high specific surface area exhibit typical battery-like electrochemical behavior. Among them, Ni–Co hydroxide nanotubes with Ni:Co=48:52 showed outstanding electrochemical characteristics, with a specific capacity of 209.9 mAh g−1 at 1 Ag−1 and remarkable cycling stability with 84.4 % capacity retention after 10 000 cycles at 20 A g−1. With the advantages of their unique nanostructure and the synergistic effect of the two elements, the Ni–Co binary hydroxide nanotubes are expected to be effective potential cathode materials for hybrid supercapacitors.

AB - Nickel–cobalt binary hydroxide nanotubes were fabricated by a facile synthetic approach by using Cu2O nanowires as sacrificial templates. The surface morphology of the binary hydroxide nanotubes can be easily controlled by adjusting the molar ratio of Ni to Co. With increasing Co content, the surfaces of the nanotubes tend to form hierarchical nanoflakes. The obtained nanotubes with high specific surface area exhibit typical battery-like electrochemical behavior. Among them, Ni–Co hydroxide nanotubes with Ni:Co=48:52 showed outstanding electrochemical characteristics, with a specific capacity of 209.9 mAh g−1 at 1 Ag−1 and remarkable cycling stability with 84.4 % capacity retention after 10 000 cycles at 20 A g−1. With the advantages of their unique nanostructure and the synergistic effect of the two elements, the Ni–Co binary hydroxide nanotubes are expected to be effective potential cathode materials for hybrid supercapacitors.

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Ni–Co Binary Hydroxide Nanotubes with Three-Dimensionally Structured Nanoflakes: Synthesis and Application as Cathode Materials for Hybrid Supercapacitors

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