Plasmonic Hybrid Nanostructures in Photocatalysis: Structures, Mechanisms, and Applications

IF 7.1 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Topics in Current Chemistry Pub Date : 2022-08-11 DOI:10.1007/s41061-022-00390-w
Rajeshreddy Ninakanti, Fons Dingenen, Rituraj Borah, Hannelore Peeters, Sammy W. Verbruggen
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引用次数: 4

Abstract

(Sun)Light is an abundantly available sustainable source of energy that has been used in catalyzing chemical reactions for several decades now. In particular, studies related to the interaction of light with plasmonic nanostructures have been receiving increased attention. These structures display the unique property of localized surface plasmon resonance, which converts light of a specific wavelength range into hot charge carriers, along with strong local electromagnetic fields, and/or heat, which may all enhance the reaction efficiency in their own way. These unique properties of plasmonic nanoparticles can be conveniently tuned by varying the metal type, size, shape, and dielectric environment, thus prompting a research focus on rationally designed plasmonic hybrid nanostructures. In this review, the term “hybrid” implies nanomaterials that consist of multiple plasmonic or non-plasmonic materials, forming complex configurations in the geometry and/or at the atomic level. We discuss the synthetic techniques and evolution of such hybrid plasmonic nanostructures giving rise to a wide variety of material and geometric configurations. Bimetallic alloys, which result in a new set of opto-physical parameters, are compared with core–shell configurations. For the latter, the use of metal, semiconductor, and polymer shells is reviewed. Also, more complex structures such as Janus and antenna reactor composites are discussed. This review further summarizes the studies exploiting plasmonic hybrids to elucidate the plasmonic-photocatalytic mechanism. Finally, we review the implementation of these plasmonic hybrids in different photocatalytic application domains such as H2 generation, CO2 reduction, water purification, air purification, and disinfection.

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光催化中的等离子体杂化纳米结构:结构、机制和应用
(太阳)光是一种储量丰富的可持续能源,几十年来一直用于催化化学反应。特别是,有关光与等离子体纳米结构相互作用的研究已经受到越来越多的关注。这些结构显示出局域表面等离子体共振的独特特性,将特定波长范围内的光转化为热电荷载流子,并伴有强局部电磁场和/或热量,这些都可能以各自的方式提高反应效率。等离子体纳米粒子的这些独特性质可以通过改变金属类型、尺寸、形状和介电环境来方便地调节,从而促进了合理设计等离子体混合纳米结构的研究重点。在这篇综述中,术语“杂化”意味着由多个等离子体或非等离子体材料组成的纳米材料,在几何和/或原子水平上形成复杂的构型。我们讨论了这种杂化等离子体纳米结构的合成技术和演变,从而产生了各种各样的材料和几何构型。将双金属合金与核壳结构进行了比较,得到了一组新的光物理参数。对于后者,综述了金属、半导体和聚合物外壳的使用。此外,还讨论了更复杂的结构,如Janus和天线电抗器复合材料。本文进一步综述了利用等离子体杂化来阐明等离子体光催化机理的研究进展。最后,我们回顾了这些等离子体杂化物在不同光催化领域的应用,如H2生成、CO2还原、水净化、空气净化和消毒。
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来源期刊
Topics in Current Chemistry
Topics in Current Chemistry Chemistry-General Chemistry
CiteScore
13.70
自引率
1.20%
发文量
48
期刊介绍: Topics in Current Chemistry is a journal that presents critical reviews of present and future trends in modern chemical research. It covers all areas of chemical science, including interactions with related disciplines like biology, medicine, physics, and materials science. The articles in this journal are organized into thematic collections, offering a comprehensive perspective on emerging research to non-specialist readers in academia or industry. Each review article focuses on one aspect of the topic and provides a critical survey, placing it in the context of the collection. Selected examples highlight significant developments from the past 5 to 10 years. Instead of providing an exhaustive summary or extensive data, the articles concentrate on methodological thinking. This approach allows non-specialist readers to understand the information fully and presents the potential prospects for future developments.
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