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Fluorescent self-propelled covalent organic framework as a microsensor for nitro explosive detection

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Abstract Covalent-organic-frameworks (COFs) are an emerging class of porous materials with fascinating structural features desired for a wide spectrum of applications. However, the potential sensing applications of COFs are hindered… Click to show full abstract

Abstract Covalent-organic-frameworks (COFs) are an emerging class of porous materials with fascinating structural features desired for a wide spectrum of applications. However, the potential sensing applications of COFs are hindered by their hydrophobic nature, as well as limited detection speed and sensing sensitivity. We report a fluorescent self-propelled COF as a microsensor for highly efficient nitro explosive detection. Together with MnO2 microsphere catalysts and magnetic Fe3O4 nanoparticles, the fluorescent COF is built in biodegradable polymeric spheres. The resulting microsensors can exhibit magnetically guided autonomous motion in aqueous solution. Fluorescence quenching of the microsensors is observed upon their navigation in solutions with trace amounts of explosives. Continuous mixing induced by the bubble propulsion of microsensors greatly shortens the sensing time to several minutes. We anticipate the presented strategy would provide implications for sensing applications of COFs.

Keywords: detection; explosive detection; fluorescent self; nitro explosive; self propelled; covalent organic

Journal Title: Applied Materials Today
Year Published: 2020

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