Hydrogen Evolution Reaction Activities of Room-Temperature Self-Grown Glycerol-Assisted Nickel Chloride Nanostructures

Nanasaheb M. Shinde; Siddheshwar D. Raut; Balaji G. Ghule; Ramesh J. Deokate; Sandesh H. Narwade; Rajaram S. Mane; Qixun Xia; James J. Pak; Jeom-Soo Kim

doi:10.3390/catal13010177

Catalysts (Jan 2023)

Hydrogen Evolution Reaction Activities of Room-Temperature Self-Grown Glycerol-Assisted Nickel Chloride Nanostructures

Nanasaheb M. Shinde,
Siddheshwar D. Raut,
Balaji G. Ghule,
Ramesh J. Deokate,
Sandesh H. Narwade,
Rajaram S. Mane,
Qixun Xia,
James J. Pak,
Jeom-Soo Kim

Affiliations

Nanasaheb M. Shinde: School of Electrical Engineering, Korea University, Seoul 02841, Republic of Korea
Siddheshwar D. Raut: Department of Future Energy Convergence, Seoul National University of Science & Technology, 232 Gongneung-ro, Nowon-gu, Seoul 01811, Republic of Korea
Balaji G. Ghule: School of Physical Sciences, Swami Ramanand Teerth Marathwada University, Nanded 431606, India
Ramesh J. Deokate: Vidya Pratishtan’s Arts, Science and Commerce College, Baramati 413133, India
Sandesh H. Narwade: School of Physical Sciences, Swami Ramanand Teerth Marathwada University, Nanded 431606, India
Rajaram S. Mane: School of Physical Sciences, Swami Ramanand Teerth Marathwada University, Nanded 431606, India
Qixun Xia: Henan Key Laboratory of Materials on Deep-Earth Engineering, School of Materials Science and Engineering, Henan Polytechnic University, Jiaozuo 454000, China
James J. Pak: School of Electrical Engineering, Korea University, Seoul 02841, Republic of Korea
Jeom-Soo Kim: Department of Chemical Engineering (BK21 FOUR), Dong-A University, 37 Nakdong-daero, Saha-gu, Busan 49315, Republic of Korea

DOI: https://doi.org/10.3390/catal13010177
Journal volume & issue: Vol. 13, no. 1
p. 177

Abstract

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Three-dimensional nanomaterials of desired structural/morphological properties and highly porous with a high specific surface area are important in a variety of applications. In this work, glycerol-mediated self-growth of 3-D dandelion flower-like nickel chloride (NiCl2) from nickel-foam (NiF) is obtained for the first time using a room-temperature (27 °C) processed wet chemical method for electrocatalysis application. Glycerol-mediated self-grown NiCl2 flowers demonstrate an excellent electrocatalytic performance towards the hydrogen evolution reaction (HER), which is much superior to the NiF (303 mV) and NiCl2 electrode prepared without glycerol (208 mV) in the same electrolyte solution. With a Tafel slope of 41 mV dec−1, the NiCl2 flower electrode confirms improved reaction kinetics as compared to the other two electrodes, i.e., NiF (106 mVdec−1) and NiCl2 obtained without glycerol (56 mV dec−1). The stability of the glycerol-based NiCl2 electrode has further been carried out for 2000 cycles with the overpotential diminution of just 8 mV, approving an electrocatalyst potential of glycerol-based NiCl2 electrode towards HER kinetics. This simple and easy growth process involves nucleation, aggregation, and crystal growth steps for producing NiCl2 nanostructures for electrocatalytic water splitting application through the HER process.

Published in Catalysts

ISSN: 2073-4344 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Chemical technology; Science: Chemistry
Website: https://www.mdpi.com/journal/catalysts

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