Electrodeposition of Ni–MoS2 as effective hydrogen evolution reaction catalysts in alkaline media

Purshotham P. Katti; B.M. Praveen; Bharath K. Devendra; S Varadaraj; J.R. Naveen Kumar

Hybrid Advances (Dec 2024)

Electrodeposition of Ni–MoS2 as effective hydrogen evolution reaction catalysts in alkaline media

Purshotham P. Katti,
B.M. Praveen,
Bharath K. Devendra,
S Varadaraj,
J.R. Naveen Kumar

Affiliations

Purshotham P. Katti: Department of Nanotechnology, Srinivas University, Institute of Engineering & Technology, Srinivas Nagara, Mukka, Mangaluru, Karnataka, 574146, India
B.M. Praveen: Department of Chemistry, Srinivas University, Institute of Engineering & Technology, Srinivas Nagara, Mukka, Mangaluru, Karnataka, 574146, India; Corresponding author.
Bharath K. Devendra: Department of Chemistry & Biochemistry, M.S. Ramaiah College of Arts, Science and Commerce (Autonomous), MSRIT Post, MSR Nagar, Bengaluru, Karnataka, 560054, India
S Varadaraj: Department of Mechanical Engineering, Srinivas University, Institute of Engineering & Technology, Srinivas Nagara, Mukka, Mangaluru, Karnataka, 574146, India; Trisha Group of Institutions, Katapadi, Udupi, Karnataka, 574105, India
J.R. Naveen Kumar: Department of Electronics and Communication Engineering, Srinivas University, Institute of Engineering & Technology, Srinivas Nagara, Mukka, Mangaluru, Karnataka, 574146, India

Journal volume & issue: Vol. 7
p. 100296

Abstract

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Highly active, long-lasting, and economically feasible nonprecious metal-based electrocatalysts are urgently required for the slow hydrogen evolution reaction (HER) in alkaline conditions. Direct current (DC) electrodeposition was used to develop the highly active Ni–MoS2 composite coatings for efficient hydrogen generation. Scanning electron microscopy (SEM), Energy Dispersive X Ray Spectroscopy (EDS), X-ray diffraction (XRD), and linear sweep voltammetry (LSV) were used to evaluate the coatings. Ni–MoS2 composite coatings behaved almost identically to pure platinum metal. The Ni–MoS2 coating produced 1.0 g/l demonstrated a low overpotential for HER. The HER process's analyzed from Volmer-Tafel mechanistic route has an extremely low slope of 56.5 mV/dec. All the coated samples were subjected to chronopotentiometry (CP). This catalyst's high HER performance shows that it has significant potential for practical applications.

Published in Hybrid Advances

ISSN: 2773-207X (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Technology
Website: https://www.sciencedirect.com/journal/hybrid-advances

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