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Dual‐Function Fluorescent Covalent Organic Frameworks: HCl Sensing and Photocatalytic H<sub>2</sub> Evolution from Water

Ahmed F. M. EL‐Mahdy, Ahmed M. Elewa, Sheng‐Wen Huang, Ho‐Hsiu Chou, Shiao‐Wei Kuo

2020Advanced Optical Materials130 citationsDOI

Abstract

Abstract Two ultrastable luminescent covalent organic frameworks (COFs), PyTA‐BC and PyTA‐BC‐Ph, are synthesized through polycondensations of 4,4′,4″,4′″‐pyrene‐1,3,6,8‐tetrayl)tetraaniline (PyTA‐4NH 2 ) with two carbazole‐based derivatives having different degrees of conjugation. The PyTA‐BC and PyTA‐BC‐Ph COFs exhibit ultrahigh thermal stabilities (up to 421 °C), excellent crystallinity, and high Brunauer–Emmett–Teller surface areas (up to 1445 m 2 g −1 ). These COFs display strong fluorescence emissions in various solvents, with their emission maxima gradually red‐shifting upon increasing the polarity of the solvent (solvatochromism). Upon exposure to HCl, they respond very rapidly and sensitively in terms of changing their colors and fluorescence emission maxima. In the presence of a sacrificial electron donor, these COFs mediate the highly efficient photocatalytic evolution of H 2 from water. In the absence of a noble metal cocatalyst, the COFs and ascorbic acid provide a photocatalytic H 2 production of up to 1183 µmol g −1 h −1 (λ ≥ 420 nm); this value is the highest reported to date for a COF. Such COFs appear to be potentially useful as chemosensors for the naked‐eye and sensitive spectroscopic detection of HCl and as cocatalysts for the sustainable photocatalytic production of H 2 from water.

Topics & Concepts

PhotocatalysisMaterials sciencePhotochemistryFluorescenceSolvatochromismCovalent bondLuminescencePhotodegradationAscorbic acidCrystallinitySolventCovalent organic frameworkChemical engineeringOrganic chemistryChemistryCatalysisOpticsOptoelectronicsComposite materialEngineeringPhysicsFood scienceCovalent Organic Framework ApplicationsLuminescence and Fluorescent MaterialsMetal-Organic Frameworks: Synthesis and Applications