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Main Authors: Subba, Chhatra Bahadur, Chettri, Bhanu, Laref, Amel, Abbas, Zeesham, Parveen, Amna, Rai, Dibya Prakash, Pachuau, Zaithanzauva
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.09538
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author Subba, Chhatra Bahadur
Chettri, Bhanu
Laref, Amel
Abbas, Zeesham
Parveen, Amna
Rai, Dibya Prakash
Pachuau, Zaithanzauva
author_facet Subba, Chhatra Bahadur
Chettri, Bhanu
Laref, Amel
Abbas, Zeesham
Parveen, Amna
Rai, Dibya Prakash
Pachuau, Zaithanzauva
contents The development of efficient and cost-effective catalysts for clean energy conversion remains a central challenge in materials science. Although platinum serves as the benchmark catalyst, its scarcity and high cost hinder large-scale deployment. In this study, we propose a newly predicted SnSiGeN4 MXene-family monolayer as a promising candidate for the oxygen evolution reaction (OER), oxygen reduction reaction (ORR), and hydrogen evolution reaction (HER). Using first-principles calculations, we systematically investigated its electronic, vibrational, and optical properties across multiple exchange-correlation functionals, including hybrid approaches, revealing a wide and tunable band gap. Simulated infrared and Raman spectra further confirm the dynamical stability and the presence of catalytically active sites. Guided by these findings, we studied photocatalytic reaction analyses that demonstrate that the computed overpotentials for OER, ORR, and HER are comparable to those of Pt-based catalysts and outperform Ir-based systems, positioning SnSiGeN4 as a sustainable, high-performance platform for next-generation UV-visible-light-driven photocatalysis.
format Preprint
id arxiv_https___arxiv_org_abs_2510_09538
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Insights into the OER, ORR, and HER Activity of a New MXene-Family SnSiGeN4 Photocatalyst for Water Splitting: A First-Principles Study
Subba, Chhatra Bahadur
Chettri, Bhanu
Laref, Amel
Abbas, Zeesham
Parveen, Amna
Rai, Dibya Prakash
Pachuau, Zaithanzauva
Materials Science
Chemical Physics
The development of efficient and cost-effective catalysts for clean energy conversion remains a central challenge in materials science. Although platinum serves as the benchmark catalyst, its scarcity and high cost hinder large-scale deployment. In this study, we propose a newly predicted SnSiGeN4 MXene-family monolayer as a promising candidate for the oxygen evolution reaction (OER), oxygen reduction reaction (ORR), and hydrogen evolution reaction (HER). Using first-principles calculations, we systematically investigated its electronic, vibrational, and optical properties across multiple exchange-correlation functionals, including hybrid approaches, revealing a wide and tunable band gap. Simulated infrared and Raman spectra further confirm the dynamical stability and the presence of catalytically active sites. Guided by these findings, we studied photocatalytic reaction analyses that demonstrate that the computed overpotentials for OER, ORR, and HER are comparable to those of Pt-based catalysts and outperform Ir-based systems, positioning SnSiGeN4 as a sustainable, high-performance platform for next-generation UV-visible-light-driven photocatalysis.
title Insights into the OER, ORR, and HER Activity of a New MXene-Family SnSiGeN4 Photocatalyst for Water Splitting: A First-Principles Study
topic Materials Science
Chemical Physics
url https://arxiv.org/abs/2510.09538