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In this work, highly photostable and fluorescent coassembled microsheets were fabricated from molecules 1 and 2 for sensitive and selective detection of BTX. We demonstrate that Förster resonance energy transfer (FRET) from nonphotostable 1 to photostable 2 gives rise to the high photostability of 1-2 coassembled microsheets. Furthermore, the combined properties of 1 and 2 components in coassembled microsheets allow distinct responses to BTX and other VOC vapors and thereby yield highly sensitive and selective detection of BTX hydrocarbons via FRET. These findings provide a new approach for the development of photostable fluorescence sensors for hazardous chemicals.

analytical chemistry

Highly Selective Detection of Benzene, Toluene, and Xylene Hydrocarbons Using Coassembled Microsheets with Förster Resonance Energy Transfer-Enhanced Photostability