Localized surface plasmon controlled chemistry at and beyond the nanoscale

IF 6.1 Q2 CHEMISTRY, PHYSICAL Chemical physics reviews Pub Date : 2023-06-01 DOI:10.1063/5.0143947
Sayantan Mahapatra, Dairong Liu, Chamath Siribaddana, Kai Wang, Linfei Li, Nan Jiang
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Abstract

Gaining valuable insight into chemistry-related fields, such as molecular and catalytic systems, surface science, and biochemistry, requires probing physical and chemical processes at the sub-nanoscale level. Recent progress and advancements in nano-optics and nano-photonics, particularly in scanning near-field optical microscopy, have enabled the coupling of light with nano-objects using surface plasmons with sub-nanoscale precision, providing access to photophysical and photochemical processes. Herein, this review highlights the basic concepts of surface plasmons and recent experimental findings of tip-assisted plasmon-induced research works and offers a glimpse into future perspectives.
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局部表面等离子体控制纳米级及以上的化学反应
要对分子和催化系统、表面科学和生物化学等化学相关领域获得有价值的见解,需要在亚纳米级别上探索物理和化学过程。纳米光学和纳米光子学的最新进展和进展,特别是在扫描近场光学显微镜方面,已经实现了使用亚纳米级精度的表面等离子体激元将光与纳米物体耦合,从而提供了光物理和光化学过程的途径。在此,这篇综述强调了表面等离子体的基本概念和尖端辅助等离子体诱导研究工作的最新实验结果,并提供了对未来前景的一瞥。
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