Abstract

Due to the increasing environmental and public health issues, efficient recognition and detection approaches for pesticides has attracted concerns worldwide. Herein, luminescent lanthanide coordination polymers (Ln-CPs) with tunable emissive centers are synthesized by simultaneously doping controlled amounts of Eu3+, Tb3+ and Gd3+ into the same framework. An optimized version of the multicenter Ln-CP (Eu0.048Tb0.052Gd0.9-CPBA) is prepared for 2D fingerprint recognizing pesticides. Additionally, the special “turn-on” response of ligand-based emission and “turn-off” response of Eu3+/Tb3+-based emission toward glyphosate (GPS) endow Eu0.048Tb0.052Gd0.9-CPBA with highly selective ratiometric sensing capability. The rapid, sensitive, selective and recyclable sensor for GPS provides a facile and adjustable synthetic approach for the development of multicenter ratiometric sensors. The real-time monitoring platform not only improves the sensitivity and selectivity but also holds great environmental significance.

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