Ag 和 Ag@SiO 纳米颗粒修饰豚草花粉微粒传感器的增强黏附作用和表面增强拉曼散射活性。

Adhesion Enhancements and Surface-Enhanced Raman Scattering Activity of Ag and Ag@SiO Nanoparticle Decorated Ragweed Pollen Microparticle Sensor.

机构信息

School of Chemistry and Biochemistry, Georgia Institute of Technology , 901 Atlantic Drive, Atlanta, Georgia 30332, United States.

School of Chemical and Biomolecular Engineering, Georgia Institute of Technology , 311 Ferst Drive, Atlanta, Georgia 30332, United States.

出版信息

ACS Appl Mater Interfaces. 2017 Jul 26;9(29):24804-24811. doi: 10.1021/acsami.6b15664. Epub 2017 Jul 17.

DOI:10.1021/acsami.6b15664

PMID:28481503

Abstract

A simple solution processed layer-by-layer approach was used to immobilize metal nanoparticles (NPs) on the surface of ragweed pollen exine to obtain multifunctional particles with significant surface-enhanced Raman scattering (SERS), two-photon excited fluorescence, and enhanced adhesion properties. The rugged pollen exine was functionalized with an amine terminated silane and then treated with Ag or Ag@SiO NPs that were electrostatically attached to the exterior of the pollen by incubation in an NP solution of the appropriate pH. Nanoparticle agglomeration on the pollen gives rise to broadband near infrared (NIR) (785-1064 nm) plasmonic activity, and strong SERS signals from benzenedithiol deposited on NP-pollen composite particles were observed. In addition to SERS activity, the AgNP coating provides a twofold increase in the adhesive properties of the RW pollen exine on a silicon substrate, leading to a robust, adhesive, broadband NIR excitable SERS microparticle.

摘要

采用简单的层层处理方法将金属纳米粒子（NPs）固定在豚草花粉外壁表面，得到具有显著表面增强拉曼散射（SERS）、双光子激发荧光和增强粘附性能的多功能颗粒。粗糙的花粉外壁用末端为胺的硅烷进行功能化，然后用 Ag 或 Ag@SiO NPs 处理，将其在适当 pH 的 NP 溶液中孵育，通过静电附着在花粉的外部。花粉上的纳米粒子团聚会产生宽带近红外（NIR）（785-1064nm）等离子体活性，并观察到沉积在 NP-花粉复合颗粒上的苯二硫醇的强 SERS 信号。除了 SERS 活性外，AgNP 涂层还使 RW 花粉外壁在硅基底上的粘附性能提高了一倍，从而形成了一种坚固、粘附性强、宽带近红外激发的 SERS 微颗粒。

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Ag 和 Ag@SiO 纳米颗粒修饰豚草花粉微粒传感器的增强黏附作用和表面增强拉曼散射活性。

Adhesion Enhancements and Surface-Enhanced Raman Scattering Activity of Ag and Ag@SiO Nanoparticle Decorated Ragweed Pollen Microparticle Sensor.

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