等离子体子
光学镊子
材料科学
纳米尺度
光电子学
镊子
纳米光子学
发热
光学力
俘获
表面等离子共振
拉曼光谱
纳米技术
光学
纳米颗粒
物理
生物
生态学
热力学
作者
Theodore Anyika,Ikjun Hong,Justus C. Ndukaife
出处
期刊:Nano Letters
[American Chemical Society]
日期:2023-11-21
卷期号:23 (24): 11416-11423
被引量:6
标识
DOI:10.1021/acs.nanolett.3c02543
摘要
Double Nanohole Plasmonic Tweezers (DNH) have emerged as a powerful approach for confining light to sub-wavelength volume, enabling the trapping of nanoscale particles much smaller than the wavelength of light. However, to circumvent plasmonic heating effects, DNH tweezers are typically operated off-resonance, resulting in reduced optical forces and field enhancements. In this study, we introduce a novel DNH design with a reflector layer, enabling on-resonance illumination while minimizing plasmonic heating. This design efficiently dissipates heat and redistributes the electromagnetic hotspots, making them more accessible for trapping nanoscale particles and enhancing light-matter interactions. We also demonstrate low-power trapping and release of small extracellular vesicles. Our work opens new possibilities for trapping-assisted Surface Enhanced Raman Spectroscopy (SERS), plasmon-enhanced imaging, and single photon emission applications that demand strong light-matter interactions.
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