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Conductive and Ultrastable Covalent Organic Framework/Carbon Hybrid as an Ideal Electrocatalytic Platform

Jeong‐Min Seo, Hyuk‐Jun Noh, Jong‐Pil Jeon, Hyeongjun Kim, Gao‐Feng Han, Sang Kyu Kwak, Hu Young Jeong, Lianli Wang, Feng Li, Jong‐Beom Baek

2022Journal of the American Chemical Society92 citationsDOI

Abstract

Developing covalent organic frameworks (COFs) with good electrical conductivity is essential to widen their range of practical applications. Thermal annealing is known to be a facile approach for enhancing conductivity. However, at higher temperatures, most COFs undergo amorphization and/or thermal degradation because of the lack of linker rigidity and physicochemical stability. Here, we report the synthesis of a conductive benzoxazole-linked COF/carbon hybrid material (BCOF-600C) by simple thermal annealing. The fused-aromatic benzoxazole and biphenyl building units endow the resulting COF with excellent physicochemical stability against high temperatures and strong acids/bases. This allows heat treatment to further enhance electrical conductivity with minimal structural alteration. The robust crystalline structure with periodically incorporated nitrogen atoms allowed platinum (Pt) atoms to be atomically integrated into the channel walls of BCOF-600C. The resulting electrocatalyst with well-defined active sites exhibited superior catalytic performance toward hydrogen evolution in acidic media.

Topics & Concepts

ChemistryBenzoxazoleThermal stabilityCovalent organic frameworkAnnealing (glass)Covalent bondCatalysisElectrocatalystBiphenylChemical engineeringElectrical conductorConductivityHybrid materialNanotechnologyCombinatorial chemistryElectrodeOrganic chemistryElectrochemistryPhysical chemistryComposite materialMaterials scienceEngineeringCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsAdvanced Photocatalysis Techniques
Conductive and Ultrastable Covalent Organic Framework/Carbon Hybrid as an Ideal Electrocatalytic Platform | Litcius