Conjugated organic polymers (COPs) have been excellent candidates because the conjugated structure occupied π structure that is useful to develop light-emitting materials. However, most COPs emitt weak luminescence owing to the H-aggregation effect. Light-emitting conjugated organic polymers (LCOP-1) possess rich butyl groups anchored in the skeleton to enhance light-emitting activity via reducing the H-aggregation effect. Owing to abundant hydroxyl and nitrogen atoms, LCOP-1 exhibits high sensitivity, selectivity, and fast response to Cu2+ ions within 1 min in comparison with the cations of Na+ , Mg2+ , Al3+ , Zn2+ , Cd2+ , Ni2+ , Cr3+ , Hg2+ , Fe3+ , Fe2+ , Pb2+ , Co2+ , etc. The detection limit can be down to nanomolar. Moreover, the sensor exhibits detection toward Cu2+ ions via a naked eye colorful change from pale-yellow to yellowish-brown. Furthermore, the light-emitting probe also successfully achieves the detection of Cu2+ ions in cells without cytotoxicity, indicating its great potentials in biological function.
Keywords: cell imaging; fast response; light-emitting; selectivity; sensitivity.
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