Issue 16, 2015
From the journal:

Nanoscale

Ni3+ doped monolayer layered double hydroxide nanosheets as efficient electrodes for supercapacitors

Yufei Zhao,a   Qing Wang,ab   Tong Bian,a   Huijun Yu,ab   Hua Fan,ab   Chao Zhou,a   Li-Zhu Wu,a   Chen-Ho Tung,a   Dermot O'Harec  and  Tierui Zhang*a  

* Corresponding authors

a Key Laboratory of Photochemical Conversion and Optoelectronic Materials, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, P. R. China
E-mail: tierui@mail.ipc.ac.cn
Fax: +86 10 62554670
Tel: +86 10 82543428

b University of Chinese Academy of Sciences, Beijing, P. R. China

c Chemistry Research Laboratory, Department of Chemistry, University of Oxford, Mansfield Road, Oxford OX1 3TA, UK

Abstract

Ni3+ doped NiTi layered double hydroxide (NiTi-LDH) monolayer nanosheets with a particle size of ∼20 nm and a thickness of ∼0.9 nm have been successfully prepared through a facile bottom-up approach. These NiTi-LDH monolayer nanosheets exhibit excellent supercapacitor performance, including a high specific pseudocapacitance (2310 F g−1 at 1.5 A g−1) and long durability compared with bulk LDH, owing to highly exposed conductive Ni3+ species (NiOOH) which lead to the increased mobility rate of surface charge and electrolyte-transfer. Therefore, this work is expected to take a significant step towards exploring novel 2D monolayer electrode materials with unique physical and chemical properties for applications in energy storage and conversion.

Graphical abstract: Ni3+ doped monolayer layered double hydroxide nanosheets as efficient electrodes for supercapacitors

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Article information

DOI
https://doi.org/10.1039/C5NR01320H
Article type
Communication
Submitted
27 Feb 2015
Accepted
10 Mar 2015
First published
12 Mar 2015

Nanoscale, 2015,7, 7168-7173

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Ni3+ doped monolayer layered double hydroxide nanosheets as efficient electrodes for supercapacitors

Y. Zhao, Q. Wang, T. Bian, H. Yu, H. Fan, C. Zhou, L. Wu, C. Tung, D. O'Hare and T. Zhang, Nanoscale, 2015, 7, 7168 DOI: 10.1039/C5NR01320H

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