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One-dimensional fluorescent covalent organic frameworks rich in exposed sp <sup>3</sup> -N sites for ultra-fast iodine capture and visual monitoring

Ke Li, Bing Yan

2025Chemical Science6 citationsDOIOpen Access PDF

Abstract

COF-1D6 with completely exposed sites exhibited an ultrahigh K 80% of 1.07 g g −1 h −1 and acheived visual monitoring of the CH 3 I adsorption process. This work provides new insights into rapid iodine capture from the perspective of exposure sites.

Topics & Concepts

IodineCovalent bondAdsorptionChemistryFluorescenceCovalent organic frameworkEnvironmental chemistryNitrogenRadioactive iodineRadiochemistryPollutionNanotechnologyContaminationInorganic chemistryCombinatorial chemistryPhotochemistryVisual methodsEnvironmental pollutionOrganic chemicalsCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and Applications
One-dimensional fluorescent covalent organic frameworks rich in exposed sp <sup>3</sup> -N sites for ultra-fast iodine capture and visual monitoring | Litcius