一种热敏印迹表面增强拉曼散射（SERS）基底在氧氟沙星快速痕量检测中的应用。

Application of a thermo-sensitive imprinted SERS substrate to the rapid trace detection of ofloxacin.

作者信息

Jiang Caiyun, Wu Ting, Liu Jiaxun, Wang Yuping

机构信息

College of Chemistry and Materials Science, Nanjing Normal University, Nanjing 210023, China.

出版信息

Anal Methods. 2020 Oct 21;12(39):4783-4788. doi: 10.1039/d0ay00616e. Epub 2020 Sep 18.

DOI:10.1039/d0ay00616e

PMID:32945296

Abstract

A novel composite (AgNPs-MIPs) was prepared by combining nano-silver particles with an ofloxacin (OFL) imprinted thermo-sensitive hydrogel. The thermo-sensitive optical properties of the composite were studied and it was used as a Raman substrate for the detection of ofloxacin. The results have shown that the position and intensity of the plasmon resonance absorption peak of the AgNPs-MIPs can be reversibly changed with the change of temperature, and the intensity of the ofloxacin Raman signal increases with the increase of temperature. Because the hydrogel combined Raman enhancement of silver nanoparticles, the selectivity of molecularly imprinted materials and the intelligent response of thermo-sensitive hydrogels, it can realize rapid, in situ, trace and selective detection of ofloxacin. Moreover, the detection limit can reach 10 mol L.

摘要

通过将纳米银颗粒与氧氟沙星（OFL）印迹热敏水凝胶相结合，制备了一种新型复合材料（AgNPs-MIPs）。研究了该复合材料的热敏光学性质，并将其用作检测氧氟沙星的拉曼基底。结果表明，AgNPs-MIPs的等离子体共振吸收峰的位置和强度会随温度变化而可逆改变，且氧氟沙星拉曼信号强度随温度升高而增加。由于该水凝胶兼具银纳米颗粒的拉曼增强作用、分子印迹材料的选择性以及热敏水凝胶的智能响应特性，它能够实现对氧氟沙星的快速、原位、痕量和选择性检测。此外，检测限可达10 mol/L。

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一种热敏印迹表面增强拉曼散射（SERS）基底在氧氟沙星快速痕量检测中的应用。

Application of a thermo-sensitive imprinted SERS substrate to the rapid trace detection of ofloxacin.

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