Exploring MOF-based micromotors as SERS sensors

Eric R. Languirand, Errie Parrilla, Nathaniel Smith, Matthew D. Collins, Angus Unruh, Lars Lefkowitz, Cecilia H. Phung, Ayusman Sen
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Abstract

Active matter, such as Janus micromotors have been used for applications such as self-assembly, pollution mitigation, and drug delivery. Metal-Organic Framework (MOF)-based Janus micromotors have been recently explored as a method to increase the rate of decontamination for chemical warfare agents in solution due to favorable MOF-chemical interactions. To achieve active-matter decontamination, SiO2@UiO66@Ag MOF-based Janus micromotors were synthesized. In addition to decontamination, the MOF-based micromotors have favorable surface topography for maintaining a localized surface plasmon. This work explores the plasmonic capabilities of Ag@MOF Janus micromotors by systematically changing the amount of Ag, the size of the microparticle that is being used for the plasmonic sensing, and the underlying MOF structure. By changing these parameters, MOF-based micromotors may be able to be used as sensors by utilizing techniques such as Surface Enhanced Raman Spectroscopy (SERS).
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探索将基于 MOF 的微电机用作 SERS 传感器
杰纳斯微电机等活性物质已被用于自组装、减轻污染和药物输送等应用领域。由于金属有机框架(MOF)与化学物质之间的良好相互作用,基于金属有机框架(MOF)的杰纳斯微动力最近被探索用于提高溶液中化学战剂的去污率。为了实现活性物质去污,合成了基于 SiO2@UiO66@Ag MOF 的 Janus 微动力。除了去污之外,基于 MOF 的微电机还具有有利的表面形貌,可维持局部表面等离子体。本研究通过系统地改变银的用量、用于等离子传感的微粒子的大小以及底层 MOF 结构,探索 Ag@MOF Janus 微电机的等离子能力。通过改变这些参数,基于 MOF 的微电机可以利用表面增强拉曼光谱(SERS)等技术用作传感器。
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