Recent progress in two dimensional Mxenes for photocatalysis: a critical review

Transition metal carbides and nitrides, generally known as MXenes have emerged as an alternative to improve photocatalytic performance in renewable energy and environmental remediation applications because of their high surface area, tunable chemistry, and easily adjustable elemental compositions. M...

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Main Authors: Haneef, T., Rasool, K., Iqbal, J., Nawaz, R., Raza Ul Mustafa, M., Mahmoud, K.A., Sarkar, T., Shahzad, A.
Format: Article
Published: 2023
Online Access:http://scholars.utp.edu.my/id/eprint/34310/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85142485684&doi=10.1088%2f2053-1583%2fac9e66&partnerID=40&md5=6ea3f9b002f29918785bbf866a3b56a5
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spelling oai:scholars.utp.edu.my:343102023-01-26T01:39:51Z http://scholars.utp.edu.my/id/eprint/34310/ Recent progress in two dimensional Mxenes for photocatalysis: a critical review Haneef, T. Rasool, K. Iqbal, J. Nawaz, R. Raza Ul Mustafa, M. Mahmoud, K.A. Sarkar, T. Shahzad, A. Transition metal carbides and nitrides, generally known as MXenes have emerged as an alternative to improve photocatalytic performance in renewable energy and environmental remediation applications because of their high surface area, tunable chemistry, and easily adjustable elemental compositions. MXenes have many interlayer groups, surface group operations, and a flexible layer spacing that makes them ideal catalysts. Over 30 different members of the MXenes family have been explored and successfully utilized as catalysts. Particularly, MXenes have achieved success as a photocatalyst for carbon dioxide reduction, nitrogen fixation, hydrogen evolution, and photochemical degradation. The structure of MXenes and the presence of hydrophilic functional groups on the surface results in excellent photocatalytic hydrogen evolution. In addition, MXenes� surface defects provide abundant CO2 adsorption sites. Moreover, their highly efficient catalytic oxidation activity is a result of their excellent two-dimensional nanomaterial structure and high-speed electron transport channels. This article comprehensively discusses the structure, synthesis techniques, photocatalytic applications (i.e. H2 evolution, N2 fixation, CO2 reduction, and degradation of pollutants), and recyclability of MXenes. This review also critically evaluates the MXene-based heterostructure and composites photocatalyst synthesis process and their performance for organic pollutant degradation. Finally, a prospect for further research is presented in environmental and energy sciences. © 2022 The Author(s). Published by IOP Publishing Ltd. 2023 Article NonPeerReviewed Haneef, T. and Rasool, K. and Iqbal, J. and Nawaz, R. and Raza Ul Mustafa, M. and Mahmoud, K.A. and Sarkar, T. and Shahzad, A. (2023) Recent progress in two dimensional Mxenes for photocatalysis: a critical review. 2D Materials, 10 (1). https://www.scopus.com/inward/record.uri?eid=2-s2.0-85142485684&doi=10.1088%2f2053-1583%2fac9e66&partnerID=40&md5=6ea3f9b002f29918785bbf866a3b56a5 10.1088/2053-1583/ac9e66 10.1088/2053-1583/ac9e66 10.1088/2053-1583/ac9e66
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description Transition metal carbides and nitrides, generally known as MXenes have emerged as an alternative to improve photocatalytic performance in renewable energy and environmental remediation applications because of their high surface area, tunable chemistry, and easily adjustable elemental compositions. MXenes have many interlayer groups, surface group operations, and a flexible layer spacing that makes them ideal catalysts. Over 30 different members of the MXenes family have been explored and successfully utilized as catalysts. Particularly, MXenes have achieved success as a photocatalyst for carbon dioxide reduction, nitrogen fixation, hydrogen evolution, and photochemical degradation. The structure of MXenes and the presence of hydrophilic functional groups on the surface results in excellent photocatalytic hydrogen evolution. In addition, MXenes� surface defects provide abundant CO2 adsorption sites. Moreover, their highly efficient catalytic oxidation activity is a result of their excellent two-dimensional nanomaterial structure and high-speed electron transport channels. This article comprehensively discusses the structure, synthesis techniques, photocatalytic applications (i.e. H2 evolution, N2 fixation, CO2 reduction, and degradation of pollutants), and recyclability of MXenes. This review also critically evaluates the MXene-based heterostructure and composites photocatalyst synthesis process and their performance for organic pollutant degradation. Finally, a prospect for further research is presented in environmental and energy sciences. © 2022 The Author(s). Published by IOP Publishing Ltd.
format Article
author Haneef, T.
Rasool, K.
Iqbal, J.
Nawaz, R.
Raza Ul Mustafa, M.
Mahmoud, K.A.
Sarkar, T.
Shahzad, A.
spellingShingle Haneef, T.
Rasool, K.
Iqbal, J.
Nawaz, R.
Raza Ul Mustafa, M.
Mahmoud, K.A.
Sarkar, T.
Shahzad, A.
Recent progress in two dimensional Mxenes for photocatalysis: a critical review
author_facet Haneef, T.
Rasool, K.
Iqbal, J.
Nawaz, R.
Raza Ul Mustafa, M.
Mahmoud, K.A.
Sarkar, T.
Shahzad, A.
author_sort Haneef, T.
title Recent progress in two dimensional Mxenes for photocatalysis: a critical review
title_short Recent progress in two dimensional Mxenes for photocatalysis: a critical review
title_full Recent progress in two dimensional Mxenes for photocatalysis: a critical review
title_fullStr Recent progress in two dimensional Mxenes for photocatalysis: a critical review
title_full_unstemmed Recent progress in two dimensional Mxenes for photocatalysis: a critical review
title_sort recent progress in two dimensional mxenes for photocatalysis: a critical review
publishDate 2023
url http://scholars.utp.edu.my/id/eprint/34310/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85142485684&doi=10.1088%2f2053-1583%2fac9e66&partnerID=40&md5=6ea3f9b002f29918785bbf866a3b56a5
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