Optimization of Silver-PDMS and Gold-PDMS Surface Nanocomposite Fabrication Technologies Considering LSPR and SERS Applications

机译：考虑LSPR和SERS应用的银PDMS和金PDMS表面纳米复合材料制造技术的优化

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Silver and gold nanoparticles embedded into the surface of PDMS (polydimethylsiloxane) were investigated. The surface nanocomposites were synthesized both on PDMS membranes and inside PDSM based microfluidic chips. The fabrication methods were optimized in order to maximize the bulk refractive index sensitivity of the nanocomposites. The sensors are intended for biosensor applications, where a bioreceptor layer would be formed on the surface of the nanoparticles to bind target molecules. The produced nanolayers were characterized by Raman-spectroscopy and optical spectroscopy based on their localized surface plasmon resonance (LSPR) properties. These cost-effectively produced nanocomposites can be successfully utilized for LSPR and SERS (surface-enhanced Raman-spectroscopy) purposes.

机译：研究了嵌入PDMS（聚二甲基硅氧烷）表面的银和金纳米颗粒。在PDMS膜和基于PDSM的微流体芯片内合成表面纳米复合材料。优化制造方法以最大化纳米复合材料的体积折射率敏感性。传感器用于生物传感器应用，其中生物受体层将形成在纳米颗粒的表面上以结合靶分子。基于其局部表面等离子体共振（LSPR）性质，通过拉曼光谱和光谱分辨率来表征生产的纳米组。这些成本有效生产的纳米复合材料可以成功地用于LSPR和SERS（表面增强的拉曼光谱）目的。

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《IEEE International Symposium for Design and Technology in Electronic Packaging》|2020年|318-322|共5页
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Alexandra Borók; Zsanett Izsold; Shireen Zangana; Attila Bonyár;
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Sensors; Temperature sensors; Nanoparticles; Microfluidics; Sensitivity; Partial discharges; Temperature measurement;

机译：传感器;温度传感器;纳米粒子;微流体;敏感性;部分放电;温度测量;

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Optimization of Silver-PDMS and Gold-PDMS Surface Nanocomposite Fabrication Technologies Considering LSPR and SERS Applications

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