金纳米球和纳米星的相关形状效应

IOSR Journal of Applied Physics Pub Date : 2017-06-01 DOI:10.9790/4861-0903032126

Manoj Verma, Boazbou Newmai, Abhitosh kedia, P. Kumar

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引用次数: 0

摘要

由于等离子体谐振器的组成、尺寸和形状，调制光学谐振很容易实现。这种电场在纳米状态下的限制极大地增强了光与物质的相互作用，进一步使纳米光子学、SERS等领域的广泛应用成为可能。在此，我们比较和对比了金纳米球和纳米星的表面等离子体模式，它们的明显不同的形态不仅与它们的结构-性能-功能关系密切相关，而且还以相当细致的方式阐明了它们各自的生长机制。分析物拉曼信号的放大倍数越高，就其表面形貌和粗糙度而言，热点数量明显增加。

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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Pertinent Shape Effects of Gold Nanospheres and Nanostellates

Modulating optical resonances in plasmonic resonators were easily achieved by virtue of their constituent composition, size as well as shape. Such confinement of electric field in the nano-regime enhances extra-ordinarily the light-matter interaction, further enabling wide range of applications in nanophotonics, SERS etc. Herein, we compare and contrast the surface plasmon modes of Au nanospheres and nanostellates, the visibly distinct morphologies of which not only correlates exceptionally well with their structure-property functional relationships, but also articulate their respective growth mechanisms in a rather meticulous manner. Higher amplification of analyte Raman signals visibly demonstrates the increased number of hot-spots with reference to their surface morphology and roughness.

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IOSR Journal of Applied Physics

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