Issue 6, 2023, Issue in Progress
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RSC Advances

CuO nanorod arrays by gas-phase cation exchange for efficient photoelectrochemical water splitting

Zhi Zheng, ORCID logo abc   Mikhail Morgan,b   Pramathesh Maji,b   Xiang Xia, ORCID logo ac   Xiaotao Zu*ac  and  Weilie Zhou ORCID logo *b  

* Corresponding authors

a Yangtze Delta Region Institute (Huzhou), University of Electronic Science and Technology of China, Huzhou 313001, P. R. China
E-mail: xtzu@uestc.edu.cn

b Department of Physics, Advanced Materials Research Institute, University of New Orleans, New Orleans, LA 70148, USA
E-mail: wzhou@uno.edu

c School of Physics, University of Electronic Science and Technology of China, Chengdu 611731, P. R. China

Abstract

CuO has been considered a promising candidate for photoelectrochemical water splitting electrodes owing to its suitable bandgap, favorable band alignments, and earth-abundant nature. In this paper, a novel gas-phase cation exchange method was developed to synthesize CuO nanorod arrays by using ZnO nanorod arrays as the template. ZnO nanorods were fully converted to CuO nanorods with aspect ratios of 10–20 at the temperature range from 350 to 600 °C. The as-synthesized CuO nanorods exhibit a photocurrent as high as 2.42 mA cm−2 at 0 V vs. RHE (reversible hydrogen electrode) under 1.5 AM solar irradiation, demonstrating the potential as the photoelectrode for efficient photoelectrochemical water splitting. Our method provides a new approach for the rational fabrication of high-performance CuO-based nanodevices.

Graphical abstract: CuO nanorod arrays by gas-phase cation exchange for efficient photoelectrochemical water splitting

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Article information

DOI
https://doi.org/10.1039/D2RA07648A
Article type
Paper
Submitted
01 Dec 2022
Accepted
13 Jan 2023
First published
24 Jan 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 3487-3493

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CuO nanorod arrays by gas-phase cation exchange for efficient photoelectrochemical water splitting

Z. Zheng, M. Morgan, P. Maji, X. Xia, X. Zu and W. Zhou, RSC Adv., 2023, 13, 3487 DOI: 10.1039/D2RA07648A

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