Plasmonic nanostructures for environmental monitoring and/or biological applications

SPIE/COS Photonics Asia Pub Date : 2023-11-29 DOI:10.1117/12.2689048
Yifei Gao, Zhenyu Xu, Zilin Jiang, Natalie Earnhardt, D. Kotsifaki
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Abstract

In this work, we have identified the size of microplastics collected from Shi Lake, China, using an optical tweezer micro-Raman spectroscopy (OTMRS) system. The microplastics were classified based on their size as products of degradation of large plastic material. Most of them were in the sub-20 μm regime. On the other hand, as nanoplastics may be more extensively distributed and hazardous than larger-sized plastics, their detection is a key point. Thus, we have designed a planar metamaterial structure and have studied the near-field enhancement in order to detect and analyze nanoplastics in aquatic environments with high sensitivity and selectivity. This study paves a way to improve our knowledge of small plastics abundance and pollution in freshwater around Shi Lake.
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用于环境监测和/或生物应用的等离子纳米结构
在这项研究中,我们利用光学镊子显微拉曼光谱(OTMRS)系统对从中国石湖采集到的微塑料进行了粒度鉴定。根据微塑料的大小,我们将其归类为大型塑料材料降解的产物。其中大部分都在 20 微米以下。另一方面,由于纳米塑料可能比大尺寸塑料分布更广、危害更大,因此对它们的检测是一个关键点。因此,我们设计了一种平面超材料结构,并对近场增强进行了研究,以便以高灵敏度和高选择性检测和分析水生环境中的纳米塑料。这项研究为我们更好地了解石湖周边淡水中小型塑料的丰度和污染情况铺平了道路。
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SPIE/COS Photonics Asia
SPIE/COS Photonics Asia
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