Photoactive metal chalcogenides towards CO2 reduction–a review

IF 2.2 4区 化学 Q3 CHEMISTRY, PHYSICAL
Shweta Gomey, Eksha Guliani, Kajal Choudhary, Sucheta Sengupta, Biswarup Chakraborty, Manoj Raula
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引用次数: 0

Abstract

The enormous rise in population, urbanization, industrialization, and improvement in people’s living conditions over the past few decades have led to an increase in the consumption of fossil fuels. While there are several strategies to overcome it, such as afforestation, increasing the number of natural sinks, trapping the produced carbon dioxide in exhausted oil wells, and sorption of CO2 on absorbers, all of these are only short-term remedies. However, a long-term solution would be conversion of CO2 into another type of substance. Thereby, reduction of CO2 to generate short chain hydrocarbons like CH3OH, CH4, C2H6, etc. can act as a renewable strategy to produce green energy sources. Reduction of CO2 can be achieved following several pathways which include pyrolysis, chemical-catalysis, electrocatalysis and/or photocatalysis, etc. Among these routes, photocatalytic pathway is more appealing as it is an inherently green approach where solar light can directly convert CO2 to value-added products. During molecular photocatalytic CO2 reduction, typically Ru- or Ir-based photosensitizers are commonly used in presence of a cocatalyst. In this context, metal chalcogenides photocatalysts including CdS, CuS, MoS2, ZnS, ZnTe, and their heterostructures like CdSe/CdS, CdS/CeO2, etc. are made of earth-abundant metals and have received a considerable attention towards CO2 reduction due to their notable photocatalytic efficiency. As it is well known, it is nearly impossible to concurrently satisfy the various performances in a one-step excitation system utilizing a single photocatalyst. As a result, the idea of composite photocatalysts which combine the advantages of many materials emerged, and this trend has become essential and foreseeable. This compact review highlights the application and the engagement of metal chalcogenides which due to their unique properties not only helps in the reduction of CO2 but also plays a vital role in reducing environmental pollution and hence seen as a potential remedy towards the concerned problem.

Graphical Abstract

This compact review highlights the application and engagement of metal chalcogenides which due to their unique properties not only helps in the reduction of CO2 but also plays a vital role in reducing environmental pollution. Various metal chalcogenides photocatalysts including CdS, CuS, MoS2, ZnS, ZnTe, and their heterostructures like CdSe/CdS, CdS/CeO2, etc. are made of earth-abundant metals and have received a considerable attention towards CO2 reduction due to their notable photocatalytic efficiency.

Abstract Image

Abstract Image

用于还原二氧化碳的光活性金属卤化物--综述
过去几十年来,人口的大量增加、城市化、工业化以及人们生活条件的改善导致了化石燃料消耗量的增加。虽然有几种策略可以解决这一问题,如植树造林、增加自然汇的数量、将产生的二氧化碳封存在枯竭的油井中,以及将二氧化碳吸附在吸收器上,但所有这些都只是短期的补救措施。然而,长期的解决办法是将二氧化碳转化为另一种物质。因此,将二氧化碳还原生成 CH3OH、CH4、C2H6 等短链碳氢化合物可以作为生产绿色能源的可再生战略。二氧化碳的还原可通过多种途径实现,包括热解、化学催化、电催化和/或光催化等。在这些途径中,光催化途径更具吸引力,因为它是一种固有的绿色方法,太阳光可直接将二氧化碳转化为增值产品。在分子光催化还原二氧化碳的过程中,通常会使用以 Ru 或 Ir 为基础的光敏剂,并伴有催化剂。在这种情况下,包括 CdS、CuS、MoS2、ZnS、ZnTe 在内的金属卤化物光催化剂及其异质结构(如 CdSe/CdS、CdS/CeO2 等)都是由富含地球的金属制成的,因其显著的光催化效率而在二氧化碳还原方面受到了广泛关注。众所周知,利用单一光催化剂在一步激发系统中同时满足各种性能几乎是不可能的。因此,结合了多种材料优点的复合光催化剂的想法应运而生,而且这一趋势已变得不可或缺且可以预见。本综述重点介绍了金属卤化物的应用和参与,由于其独特的性质,不仅有助于减少二氧化碳,而且在减少环境污染方面也发挥着重要作用,因此被视为解决相关问题的潜在良方。包括 CdS、CuS、MoS2、ZnS、ZnTe 在内的各种金属卤化物光催化剂及其异质结构(如 CdSe/CdS、CdS/CeO2 等)都是由地球上丰富的金属制成的,由于其显著的光催化效率,它们在减少二氧化碳排放方面受到了广泛关注。
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来源期刊
Colloid and Polymer Science
Colloid and Polymer Science 化学-高分子科学
CiteScore
4.60
自引率
4.20%
发文量
111
审稿时长
2.2 months
期刊介绍: Colloid and Polymer Science - a leading international journal of longstanding tradition - is devoted to colloid and polymer science and its interdisciplinary interactions. As such, it responds to a demand which has lost none of its actuality as revealed in the trends of contemporary materials science.
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