Energy-efficient electrolytic hydrogen generation using a Cu3P nanoarray as a bifunctional catalyst for hydrazine oxidation and water reduction

Meng Liu; Rong Zhang; Lixue Zhang; Danni Liu; Shuai Hao; Gu Du; Abdullah M. Asiri; Rongmei Kong; Xuping Sun

doi:10.1039/C6QI00384B

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Energy-efficient electrolytic hydrogen generation using a Cu₃P nanoarray as a bifunctional catalyst for hydrazine oxidation and water reduction†

Meng Liu,‡^a Rong Zhang,‡^a Lixue Zhang,*^b Danni Liu,^a Shuai Hao,^a Gu Du,^c Abdullah M. Asiri,^d Rongmei Kong^e and Xuping Sun*^a

Author affiliations

* Corresponding authors

^a College of Chemistry, Sichuan University, Chengdu 610064, Sichuan, China
E-mail: sunxp@scu.edu.cn

^b College of Chemistry and Chemical Engineering, Qingdao University, Qingdao 266071, Shandong, China
E-mail: zhanglx@qdu.edu.cn

^c Chengdu Institute of Geology and Mineral Resources, Chengdu 610081, Sichuan, China

^d Chemistry Department, Faculty of Science, King Abdulaziz University, Jeddah 21589, Saudi Arabia

^e College of Chemistry and Chemical Engineering, Qufu Normal University, Qufu 273165, Shandong, China

Abstract

Energy-efficient electrolytic hydrogen generation is highly desired but still remains challenging. In this work, we demonstrate that a Cu₃P nanoarray on copper foam (Cu₃P/CF) behaves as a high-performance electrocatalyst for hydrazine oxidation reaction (HzOR) in alkaline electrolytes. A full electrolytic system employing Cu₃P/CF as both an anode for HzOR and a cathode for hydrogen evolution reaction drives 100 mA cm⁻² at a voltage of 0.72 V in 1.0 M KOH aqueous solution with 0.5 M hydrazine. It also demonstrates high long-term stability.

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Article information

DOI: https://doi.org/10.1039/C6QI00384B
Article type: Research Article
Submitted: 19 Sep 2016
Accepted: 08 Jan 2017
First published: 03 Feb 2017

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Inorg. Chem. Front., 2017,4, 420-423

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Energy-efficient electrolytic hydrogen generation using a Cu₃P nanoarray as a bifunctional catalyst for hydrazine oxidation and water reduction

M. Liu, R. Zhang, L. Zhang, D. Liu, S. Hao, G. Du, A. M. Asiri, R. Kong and X. Sun, Inorg. Chem. Front., 2017, 4, 420 DOI: 10.1039/C6QI00384B

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