Recent advances in hydrogen production using MXenes-based metal sulfide photocatalysts

Asieh Akhoondi, H. Ghaebi, L. Karuppasamy, Mohammed M. Rahman, P. Sathishkumar
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引用次数: 6

Abstract

At present, the composition and crystalline structure of transition metal nitrides or carbides (MXenes) and their derivatives are continuously expanding due to their unique physicochemical properties, especially in the photocatalytic field. Advances over the past four years have led to improved preparation of new MAX phases, resulting in new MXenes with excellent photo-thermal effect, considerable specific surface area, long-term stability and optimum activity. Since MXenes have good electrical conductivity and their bandgap is adjustable under the visible light range, this group is one of the best promising candidates for hydrogen production from photo-splitting of water as an environment-friendly method of converting sunlight to chemical energy. Progress in noble metal-free photocatalyst associated with more understanding of the fundamental mechanism of photocatalysis has enabled a proper choice of cocatalyst with better efficiency. In this study, the photocatalytic production of hydrogen through MXens as a support and co-catalyst on metal sulfide is summarized and discussed. Recent advances in the design and synthesis of MXenes-based metal sulfide nanocomposites to increase the efficiency of photocatalytic hydrogen production are then highlighted. Finally, the challenges and future prospects for the development of MXenes-based metal sulfide composites are outlined.
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mxenes基金属硫化物光催化剂制氢研究进展
目前,过渡金属氮化物或碳化物(MXenes)及其衍生物由于其独特的物理化学性质,特别是在光催化领域,其组成和晶体结构不断扩大。在过去四年的进展中,新的MAX相的制备得到了改进,新的MXenes具有优异的光热效应、可观的比表面积、长期稳定性和最佳活性。由于MXenes具有良好的导电性,并且它们的带隙在可见光范围内是可调节的,因此作为一种将太阳光转化为化学能的环保方法,MXenes是最有前途的候选材料之一。随着对光催化基本机理的深入了解,无贵金属光催化剂的研究取得了进展,从而使人们能够正确选择具有更高效率的助催化剂。本文对MXens作为载体和助催化剂在金属硫化物上光催化制氢进行了综述和讨论。重点介绍了在设计和合成mxenes基金属硫化物纳米复合材料以提高光催化制氢效率方面的最新进展。最后,对mxenes基金属硫化物复合材料的发展面临的挑战和前景进行了展望。
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