Overview

MXene, a two-dimensional (2D) transition metal carbide, nitride, and carbonitride, was discovered in 2011. MXene has great potential as a cocatalyst in the field of photocatalysis due to its unique properties and structure. MXene-Based Photocatalysts: Fabrication and Applications introduces readers to the fundamentals, preparation, microstructure characterization, and a variety of applications of MXene-based photocatalysts. The book is a comprehensive reference for MXene materials and provides an overview of the current literature on MXene-based photocatalysts. FEATURES Discusses preparation methods of MXenes Describes the morphology and microstructure of MXenes Offers strategies for fabricating MXene-based photocatalysts Details the reaction mechanism of MXene-based photocatalysts Covers applications in photocatalytic water-splitting, photocatalytic CO2 reduction, photocatalytic degradation, photocatalytic nitrogen fixation, and photocatalytic H2O2 production This book serves as an invaluable guide for advanced students, industry professionals, professors, and researchers in the field of materials science and engineering, photocatalysis, energy, and environmental applications.

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9780367742904

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Reviews

High on the list of critically important environmental technologies likely to play an increasing leadership role in coming decades are photocatalytic processes for energy conversion driven by MXene-based photocatalysts. Synthesized for the very first time in 2011, these novel, next-generation transition metal carbides and nitrides offer attractive new alternative pathways to high-value materials chemistries realized from water-splitting, carbon dioxide reduction, lithium-ion batteries, solar energy manufacturing—and the list could go on. Drawing contributions from Asian constituencies in China and Malaysia, editors Qin, Su (both, Guangxi Univ.), and Ji (Sun Yat-sen Univ.) offer a notable monograph beginning with a two-page introduction useful for a broader audience. Specialized chapters outlining preparatory methods, morphology, and microstructure of MXene-based photocatalysts and characteristic properties of MXene itself and MXene-facilitated photocatalysis follow. Concluding chapters deal more extensively with various industrial fabrication methods and applications. Each chapter is well documented with references current to 2021. Illustrations, mainly in black-and-white, are typically small and often hard to read but suitable and helpful. This is important stuff and well researched. Advanced undergraduates and professionals working in the field will be pleased to have access to this volume—as was this reviewer. Summing Up: Highly recommended. Upper-division undergraduates. Graduate students, faculty, and professionals. Students in two-year technical programs. –L. W. Fine, Columbia University, CHOICE, May 2023

High on the list of critically important environmental technologies likely to play an increasing leadership role in coming decades are photocatalytic processes for energy conversion driven by MXene-based photocatalysts. Synthesized for the very first time in 2011, these novel, next-generation transition metal carbides and nitrides offer attractive new alternative pathways to high-value materials chemistries realized from water-splitting, carbon dioxide reduction, lithium-ion batteries, solar energy manufacturing—and the list could go on. Drawing contributions from Asian constituencies in China and Malaysia, editors Qin, Su (both, Guangxi Univ.), and Ji (Sun Yat-sen Univ.) offer a notable monograph beginning with a two-page introduction useful for a broader audience. Specialized chapters outlining preparatory methods, morphology, and microstructure of MXene-based photocatalysts and characteristic properties of MXene itself and MXene-facilitated photocatalysis follow. Concluding chapters deal more extensively with various industrial fabrication methods and applications. Each chapter is well documented with references current to 2021. Illustrations, mainly in black-and-white, are typically small and often hard to read but suitable and helpful. This is important stuff and well researched. Advanced undergraduates and professionals working in the field will be pleased to have access to this volume—as was this reviewer. Summing Up: Highly recommended. Upper-division undergraduates. Graduate students, faculty, and professionals. Students in two-year technical programs. –L. W. Fine, Columbia University, CHOICE, May 2023 High on the list of critically important environmental technologies likely to play an increasing leadership role in coming decades are photocatalytic processes for energy conversion driven by MXene-based photocatalysts. Synthesized for the very first time in 2011, these novel, next-generation transition metal carbides and nitrides offer attractive new alternative pathways to high-value materials chemistries realized from water-splitting, carbon dioxide reduction, lithium-ion batteries, solar energy manufacturing—and the list could go on. Drawing contributions from Asian constituencies in China and Malaysia, editors Qin, Su (both, Guangxi Univ.), and Ji (Sun Yat-sen Univ.) offer a notable monograph beginning with a two-page introduction useful for a broader audience. Specialized chapters outlining preparatory methods, morphology, and microstructure of MXene-based photocatalysts and characteristic properties of MXene itself and MXene-facilitated photocatalysis follow. Concluding chapters deal more extensively with various industrial fabrication methods and applications. Each chapter is well documented with references current to 2021. Illustrations, mainly in black-and-white, are typically small and often hard to read but suitable and helpful. This is important stuff and well researched. Advanced undergraduates and professionals working in the field will be pleased to have access to this volume—as was this reviewer. Summing Up: Highly recommended. Upper-division undergraduates. Graduate students, faculty, and professionals. Students in two-year technical programs. –L. W. Fine, Columbia University, CHOICE, May 2023

Author Information

Prof. Zuzeng Qin obtained his bachelor degree and Ph. D. in Chemical Engineering and Technology at Guangxi University in 2000 and 2009, respectively,and worked as a postdoc at Sun Yat-Sen University from Aug. 2012 to Mar. 2015, and went to The University of Tennessee, Knoxville as a visiting scholar from Oct. 2015 to Oct. 2016. The present research interests of Prof. Qin are the environmental-friendly catalytic processes, synthesis/separation of fine chemicals, and 2D materials for environmental and energy. He is the Vice-dean of School of Chemistry and Chemical Engineering, Guangxi University, and the editorial board member of Advanced Composites and Hybrid Materials. Dr. Tongming Su obtained his Ph.D. in industrial catalysis from the School of Chemistry and Chemical Engineering, Guangxi University, China in 2018. From Sept. 2016 to Mar. 2018, He conducted scientific research on MXene-based materials at Oak Ridge National Lab (ORNL) and The University of Tennessee, Knoxville as a Joint PhD student supported by China Scholarship Council. He is currently an Assistant Professor at the School of Chemistry and Chemical Engineering, Guangxi University, China. His research interests focus on the synthesis of MXene-based materials and their applications in catalysis, energy conversion, and environmental remediation. Prof. Hongbing Ji is from the School of Chemistry at Sun Yat-sen University. He is the winner of the National Science Fund for Distinguished Young Scholars, the young and middle-aged leader of science and technology innovation of the Ministry of Science and Technology, the Distinguished Professor of the Pearl River Scholars of Guangdong Province, the Dean of the Fine Chemical Research Institute of Sun Yat-sen University, the Dean of the Huizhou Research Institute of Sun Yat-sen University, and the editorial board member of Journal of Chemical Technology and Biotechnology and Chinese Journal of Chemical Engineering.

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