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Hauptverfasser: Shaw, Swati, Ghosh, Subhradip
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2405.05874
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author Shaw, Swati
Ghosh, Subhradip
author_facet Shaw, Swati
Ghosh, Subhradip
contents Water splitting reactions through photocatalysis is an efficient and sustainable technique for the generation of green energy. The photocatalyst's ability to effect simultaneous generation of hydrogen and oxygen, along with efficiency in utilisation of charged carriers, conversion of solar energy to hydrogen, fast migration, and low recombination rates of carriers, are the parameters to decide its suitability in water splitting. In literature, comprehensive calculation and analysis of all these performance parameters for a potential photocatalyst are rare. In this work, we have performed first-principles-based computations to find new efficient photocatalysts from the family of Janus MXenes and assessed their performance parameters. Strain engineering has been invoked in search of new materials. Out of 14 studied materials, we find 5 materials: Sc$_{2}$COS, Zr$_{2}$COS, Hf$_{2}$COS, and ZrHfCO$_{2}$ under zero or finite tensile strain and Hf$_{2}$COSe at 6\% tensile strain meeting the requirements of simultaneous reactions to split water. The computations of various efficiency-related parameters demonstrate that Zr$_{2}$COS, Hf$_{2}$COS, and Hf$_{2}$COSe have excellent efficiencies, significantly better than the well-known photocatalysts. The origin of such performances lies in their electronic and optical properties, which are analysed systematically.
format Preprint
id arxiv_https___arxiv_org_abs_2405_05874
institution arXiv
publishDate 2024
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spellingShingle Performance Parameters of Infra-red and Visible-active MXene Photocatalysts for Water Splitting
Shaw, Swati
Ghosh, Subhradip
Materials Science
Water splitting reactions through photocatalysis is an efficient and sustainable technique for the generation of green energy. The photocatalyst's ability to effect simultaneous generation of hydrogen and oxygen, along with efficiency in utilisation of charged carriers, conversion of solar energy to hydrogen, fast migration, and low recombination rates of carriers, are the parameters to decide its suitability in water splitting. In literature, comprehensive calculation and analysis of all these performance parameters for a potential photocatalyst are rare. In this work, we have performed first-principles-based computations to find new efficient photocatalysts from the family of Janus MXenes and assessed their performance parameters. Strain engineering has been invoked in search of new materials. Out of 14 studied materials, we find 5 materials: Sc$_{2}$COS, Zr$_{2}$COS, Hf$_{2}$COS, and ZrHfCO$_{2}$ under zero or finite tensile strain and Hf$_{2}$COSe at 6\% tensile strain meeting the requirements of simultaneous reactions to split water. The computations of various efficiency-related parameters demonstrate that Zr$_{2}$COS, Hf$_{2}$COS, and Hf$_{2}$COSe have excellent efficiencies, significantly better than the well-known photocatalysts. The origin of such performances lies in their electronic and optical properties, which are analysed systematically.
title Performance Parameters of Infra-red and Visible-active MXene Photocatalysts for Water Splitting
topic Materials Science
url https://arxiv.org/abs/2405.05874