4.7 Article

A near-infrared ratiometric fluorescent probe for hydrazine and its application for gaseous sensing and cell imaging

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PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.saa.2023.122692

Keywords

Fluorescent probe; Hydrazine; Halogen effects; Gaseous sensing; Cell imaging

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This study reports a near-infrared ratiometric fluorescent probe (DCPBCl2-Hz) for the detection of hydrazine. The probe has good selectivity, high sensitivity, large Stokes shift, and wide applicable pH range, allowing convenient detection of hydrazine down to 1 ppm. Additionally, the probe can penetrate living cells and visualize intracellular hydrazine.
Hydrazine (N2H4) is a widely used raw material in the chemical industry, but at the same time hydrazine has extremely high toxicity. Therefore, the development of efficient detection methods is crucial for monitoring hydrazine in the environment and evaluating the biological toxicity of hydrazine. This study reports a near -infrared ratiometric fluorescent probe (DCPBCl2-Hz) for the detection of hydrazine by coupling a chlorine -substituted D-& pi;-A fluorophore (DCPBCl2) to the recognition group acetyl. Due to the halogen effect of chlorine substitution, the fluorophore has an elevated fluorescence efficiency and a lowered pKa value and is suitable for physiological pH conditions. Hydrazine can specifically react with the acetyl group of the fluorescent probe to release the fluorophore DCPBCl2, so the fluorescence emission of the probe system significantly shifted from 490 nm to 660 nm. The fluorescent probe has many advantages, such as good selectivity, high sensitivity, large Stokes shift, and wide applicable pH range. The probe-loaded silica plates can realize convenient sensing gaseous hy-drazine with content down to 1 ppm (mg/m3). Subsequently, DCPBCl2-Hz was successfully applied to detect hydrazine in soils. In addition, the probe can also penetrate living cells and allow the visualization of intracellular hydrazine. It can be anticipated that probe DCPBCl2-Hz will be a useful tool for sensing hydrazine in biological and environmental applications.

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