Synthesis of one dimensional Cu2S nanorods using a self-grown sacrificial template for the electrocatalytic oxygen evolution reaction (OER)

Shital B. Kale; Pravin T. Babar; Jin-Hyeok Kim; Chandrakant D. Lokhande

doi:10.1039/D0NJ00909A

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Synthesis of one dimensional Cu₂S nanorods using a self-grown sacrificial template for the electrocatalytic oxygen evolution reaction (OER)†

Shital B. Kale,

^ab Pravin T. Babar,^b Jin-Hyeok Kim

*^b and Chandrakant D. Lokhande*^a

Author affiliations

* Corresponding authors

^a Centre for Interdisciplinary Research, D. Y. Patil Education Society (Institution Deemed to Be University), Kolhapur, India
E-mail: l_chandrakant@yahoo.com
Fax: +91 231 2601595
Tel: +91 231 2601212

^b Optoelectronic Convergence Research Center, Department of Materials Science and Engineering, Chonnam National University, Gwangju 500-757, South Korea
E-mail: jinhyeok@chonnam.ac.kr

Abstract

The oxygen evolution reaction (OER) is critical in electrochemical water splitting and requires an efficient, sustainable, and cheap catalyst for successful practical applications. To fulfill these requirements, a simple approach is adopted by developing a nanostructured active material directly on a conducting backbone. The self-grown nanorod template on a conducting backbone of Cu is used as a sacrificial template and to convert this nanorod template into Cu₂S nanorods, a simple ion-exchange method is adopted for the first time. When used as an electrocatalyst for the OER Cu₂S nanorods required an overpotential of 270 mV to achieve a current density 10 mA cm⁻² and exhibited an excellent stability.

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Article information

DOI: https://doi.org/10.1039/D0NJ00909A
Article type: Paper
Submitted: 25 Feb 2020
Accepted: 22 Apr 2020
First published: 22 Apr 2020

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New J. Chem., 2020,44, 8771-8777

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Synthesis of one dimensional Cu₂S nanorods using a self-grown sacrificial template for the electrocatalytic oxygen evolution reaction (OER)

S. B. Kale, P. T. Babar, J. Kim and C. D. Lokhande, New J. Chem., 2020, 44, 8771 DOI: 10.1039/D0NJ00909A

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