Tuning the interaction between propagating and localized surface plasmons for surface enhanced Raman scattering in water for biomedical and environmental applications

Shioi Masahiko; Jans Hilde; Lodewijks Kristof; Van Dorpe Pol; Lagae Liesbet; Kawamura Tatsuro

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Tuning the interaction between propagating and localized surface plasmons for surface enhanced Raman scattering in water for biomedical and environmental applications

机译：调整传播和局部表面等离子体激元之间的相互作用，以在生物医学和环境应用中改善表面在水中的拉曼散射

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With a view to biomedical and environmental applications, we investigate the plasmonic properties of a rectangular gold nanodisk array in water to boost surface enhanced Raman scattering (SERS) effects. To control the resonance wavelengths of the surface plasmon polariton and the localized surface plasmon, their dependence on the array period and diameter in water is studied in detail using a finite difference time domain method. A good agreement is obtained between calculated resonant wavelengths and those of gold nanodisk arrays fabricated using electron beam lithography. For the optimized structure, a SERS enhancement factor of 7.8 × 107 is achieved in water experimentally.

机译：鉴于生物医学和环境应用，我们研究了矩形金纳米盘阵列在水中的等离子体性能，以增强表面增强拉曼散射（SERS）效应。为了控制表面等离子体激元和局域表面等离子体激元的共振波长，使用时域有限差分法详细研究了它们对阵列周期和直径的依赖性。在计算出的谐振波长与使用电子束光刻技术制造的金纳米盘阵列的谐振波长之间获得了很好的一致性。对于优化的结构，在水中通过实验获得的SERS增强因子为7.8×10 7 。

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《Applied Physics Letters》 |2014年第24期|1-4|共4页
作者
Shioi Masahiko; Jans Hilde; Lodewijks Kristof; Van Dorpe Pol; Lagae Liesbet; Kawamura Tatsuro;
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Device Solutions Center, Panasonic Corporation, 3-4, Hikaridai, Seika-cho, Soraku-gun, Kyoto 619-0237, Japan|c|;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Tuning the interaction between propagating and localized surface plasmons for surface enhanced Raman scattering in water for biomedical and environmental applications [J] . Masahiko Shioi, Hilde Jans, Kristof Lodewijks, Applied Physics Letters . 2014,第24期

机译：调整传播和局部表面等离子体激元之间的相互作用，以在生物医学和环境应用中改善表面在水中的拉曼散射
2. Propagating and localized surface plasmons in hierarchical metallic structures for surface-enhanced raman scattering [J] . Wang X., Wang Y., Cong M., Small . 2013,第11期

机译：在分层金属结构中传播和局部化的表面等离子体激元，以进行表面增强拉曼散射
3. Magnetic Fe3O4@SiO2@Ag@COOH NPs/Au Film with Hybrid Localized Surface Plasmon/Surface Plasmon Polariton Modes for Surface-Enhanced Raman Scattering Detection of Thiabendazole [J] . Hu Xiangna, Bian XingZhong, Yu Shaozhou, Journal of nanoscience and nanotechnology . 2020,第4期

机译：磁FE3O4 @ SIO2 @ AG @ COOH NPS / AU薄膜带混合局部表面等离子体/表面等离子体POLATITON模式，用于表面增强拉曼散射检测
4. Tuning localized plasmons in nanostructured substrates for surface-enhanced Raman scattering applications. [C] . Quantum Electronics and Laser Science Conference;Conference on Lasers and Electro-Optics . 2006

机译：调谐纳米结构基板中的局部等离子体，用于表面增强拉曼散射应用。
5. Assembly of silver nanocube clusters and tuning of surface plasmon resonances for surface-enhanced Raman scattering. [D] . Lee, Seung Yong. 2012

机译：银纳米立方簇的组装和表面等离子体激元共振的表面增强拉曼散射的调整。
6. Tuning Localized Surface Plasmon Resonance of Nanoporous Gold with a Silica Shell for Surface Enhanced Raman Scattering [O] . Wei Li, Chao Ma, Ling Zhang, 2019

机译：用硅壳调谐纳米孔金的局部表面等离子体共振以增强表面拉曼散射
7. Tuning localized plasmon cavities for optimized surface-enhanced Raman scattering [O] . Perney, N.M.B., García de Abajo, Francisco Javier, Baumberg, J.J., 2012

机译：调整局部等离激元腔以优化表面增强拉曼散射
8. Biomedical Applications of Micro-Raman and Surface-Enhanced Raman Scattering (SERS) Technology. [R] . Sharma, S. K., Misra, A. K., Dykes, A. C., 2012

机译：微拉曼和表面增强拉曼散射（sERs）技术的生物医学应用。

Tuning the interaction between propagating and localized surface plasmons for surface enhanced Raman scattering in water for biomedical and environmental applications

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