一种新型染料修饰的金属有机骨架作为苯乙烯和温度的双功能荧光探针的可视化传感器。

A Novel Dye-Modified Metal-Organic Framework as a Bifunctional Fluorescent Probe for Visual Sensing for Styrene and Temperature.

机构信息

College of Chemistry and Materials Science, Sichuan Normal University, Chengdu 610068, China.

Beijing Aerospace Propulsion Institute, Beijing 100076, China.

出版信息

Molecules. 2023 Jun 22;28(13):4919. doi: 10.3390/molecules28134919.

DOI:10.3390/molecules28134919

PMID:37446579

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10343389/

Abstract

A novel fluorescent probe (C460@Tb-MOFs) was designed and synthesized by encapsulating the fluorescent dye 7-diethylamino-4-methyl coumarin (C460) into a terbium-based metal-organic framework using a simple ultrasonic impregnation method. It is impressive that this dye-modified metal-organic framework can specifically detect styrene and temperature upon luminescence quenching. The sensing platform of this material exhibits great selectivity, fast response, and good cyclability toward styrene detection. It is worth mentioning that the sensing process undergoes a distinct color change from blue to colorless, providing conditions for the accurate visual detection of styrene liquid and gas. The significant fluorescence quenching mechanism of styrene toward C460@Tb-MOFs is explored in detail. Moreover, the dye-modified metal-organic framework can also achieve temperature sensing from 298 to 498 K with high relative sensitivity at 498 K. The preparation of functionalized MOF composites with fluorescent dyes provides an effective strategy for the construction of sensors for multifunctional applications.

摘要

一种新型荧光探针（C460@Tb-MOFs）被设计并通过简单的超声浸渍法合成，将荧光染料 7-二乙氨基-4-甲基香豆素（C460）封装到基于铽的金属-有机骨架中。令人印象深刻的是，这种染料修饰的金属-有机骨架可以在发光猝灭时特异性地检测苯乙烯和温度。该材料的传感平台对苯乙烯检测表现出高选择性、快速响应和良好的可循环性。值得一提的是，传感过程经历了从蓝色到无色的明显颜色变化，为苯乙烯液体和气体的准确目视检测提供了条件。详细探讨了苯乙烯对 C460@Tb-MOFs 的显著荧光猝灭机制。此外，该染料修饰的金属-有机骨架还可以在 298 至 498 K 范围内实现温度传感，在 498 K 时具有高相对灵敏度。用荧光染料制备功能化 MOF 复合材料为构建多功能应用传感器提供了一种有效策略。

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一种新型染料修饰的金属有机骨架作为苯乙烯和温度的双功能荧光探针的可视化传感器。

A Novel Dye-Modified Metal-Organic Framework as a Bifunctional Fluorescent Probe for Visual Sensing for Styrene and Temperature.

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