Controlled optical manipulation and sorting of nanomaterials enabled by photonic and plasmonic nanodevices

IF 12.8 1区 化学 Q1 CHEMISTRY, PHYSICAL
Christophe Pin , Hideki Fujiwara , Keiji Sasaki
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引用次数: 2

Abstract

Precise manipulation and sorting of nanomaterials cannot rely on techniques used for micro- and macro-scale objects because of their nanoscale size, which is smaller than the diffraction limit, and their fast Brownian diffusion. To overcome the limitations of standard optical tweezers, new techniques have recently emerged that make use of optical forces acting on nanomaterials in the vicinity of photonic and plasmonic nanostructures. This review focuses on the techniques that have been recently developed to either optically transport, sort, trap, rotate, assemble, or deposit nanomaterials using photonic or plasmonic devices. The first part is dedicated to the optical transport and sorting of nanomaterials using photonic waveguides. The second part provides an overview of the recent work on optical trapping and manipulation of nanomaterials using photonic and plasmonic nanoresonators. The third part provides a short summary of recent work on optical trapping and manipulation using metalenses and metasurfaces. This review aims to highlight some specific functionalities enabled by photonic and plasmonic devices that make it possible to tailor the optical forces acting on nanomaterials.

利用光子和等离子体纳米器件实现纳米材料的可控光学操作和分类
纳米材料的精确操作和分类不能依赖于用于微观和宏观尺度物体的技术,因为它们的纳米尺度小于衍射极限,并且它们的快速布朗扩散。为了克服标准光镊的局限性,最近出现了利用光力作用在光子和等离子体纳米结构附近的纳米材料上的新技术。本文综述了近年来利用光子或等离子体器件进行光传输、分类、捕获、旋转、组装或沉积纳米材料的技术。第一部分是利用光子波导进行纳米材料的光输运和分选。第二部分概述了利用光子和等离子体纳米谐振器对纳米材料进行光捕获和操纵的最新工作。第三部分简要介绍了近年来利用超透镜和超表面进行光捕获和操纵的研究进展。这篇综述的目的是强调光子和等离子体器件所实现的一些特定功能,这些功能使得定制作用在纳米材料上的光力成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
21.90
自引率
0.70%
发文量
36
审稿时长
47 days
期刊介绍: The Journal of Photochemistry and Photobiology C: Photochemistry Reviews, published by Elsevier, is the official journal of the Japanese Photochemistry Association. It serves as a platform for scientists across various fields of photochemistry to communicate and collaborate, aiming to foster new interdisciplinary research areas. The journal covers a wide scope, including fundamental molecular photochemistry, organic and inorganic photochemistry, photoelectrochemistry, photocatalysis, solar energy conversion, photobiology, and more. It provides a forum for discussing advancements and promoting collaboration in the field of photochemistry.
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