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Dual‐Function HKUST‐1: Templating and Catalyzing Formation of Graphitic Carbon Nitride Quantum Dots Under Mild Conditions

Mohamed K. Albolkany, Yang Wang, Weijin Li, Syeda Arooj, Chun‐Hui Chen, Niannian Wu, Yan Wang, Radek Zbořil, Roland A. Fischer, Bo Liu

2020Angewandte Chemie International Edition37 citationsDOIOpen Access PDF

Abstract

Abstract Graphitic carbon nitride quantum dots (g‐CNQDs) are highly promising photoresponsive materials. However, synthesis of monodispersed g‐CNQDs remains challenging. Here we report the dual function of MOF [Cu 3 BTC 2 ] (HKUST‐1) as a catalyst and template simultaneously to prepare g‐CNQDs under mild conditions. Cyanamide (CA), a graphitic carbon nitride precursor, catalytically dimerized inside the larger MOF cavities at 90 °C and condensed into g‐CNQDs at 120 °C in a controlled fashion. The HKUST‐1 template was stable under the reaction conditions, leading to uniform g‐CNQDs with a particle size of 2.22±0.68 nm. The as prepared g‐CNQDs showed photoluminescence emission with a quantum yield of 3.1 %. This concept (MOF dual functionality) for catalyzing CA polycondensation (open metal sites (OMSs) effect) and controlling the produced particle size (pore‐templating effect), together with the tunable MOF porosity, is expected to produce unique g‐CNQDs with controllable size, morphology, and surface functionality.

Topics & Concepts

Graphitic carbon nitrideDual functionQuantum dotNitrideCarbon nitrideDual (grammatical number)NanotechnologyMaterials scienceCarbon fibersFunction (biology)Chemical engineeringChemistryComposite materialPhotocatalysisComputer scienceComposite numberCell biologyLayer (electronics)BiochemistryBiologyEngineeringCatalysisLiteratureArtContouringComputer graphics (images)Carbon and Quantum Dots ApplicationsAdvanced Photocatalysis TechniquesAdvanced Nanomaterials in Catalysis