Litcius/Paper detail

Exciton Dipole Orientation and Dynamic Reactivity Synergistically Enable Overall Water Splitting in Covalent Organic Frameworks

Qing Niu, Wenfeng Deng, Yanlei Chen, Qingqing Lin, Liuyi Li, Zheyuan Liu, Jinhong Bi, Yan Yu

2024ACS Energy Letters30 citationsDOI

Abstract

Covalent organic frameworks (COFs) are promising semiconductor photocatalysts but are still limited in overall water splitting mainly owing to a lack of clear design approaches with which to ameliorate catalytic activities. Here, we demonstrate a synergy of exciton dipole orientation and dynamic reactivity of COFs that enables water splitting for stoichiometric evolution of H 2 and O 2 . The exciton dipole orientation is responsible for driving the spatial separation of photoinduced charges, while the dynamic reactivity of imine bonds of COFs with water and holes is proven for initiating water oxidation. Accordingly, a rationally designed BtS-COF with benzotrithiophene and sulfone units exhibits a much-improved performance in H 2 and O 2 evolution in neutral water under visible light. Its catalytic efficiency is even superior to some photocatalysts with metal-based water oxidation cocatalyst.

Topics & Concepts

Reactivity (psychology)ExcitonCovalent bondDipoleOrientation (vector space)Chemical physicsMaterials scienceWater splittingNanotechnologyChemistryPhotochemistryPhysicsOrganic chemistryPhotocatalysisCondensed matter physicsCatalysisPathologyMathematicsMedicineAlternative medicineGeometryCovalent Organic Framework ApplicationsElectronic and Structural Properties of OxidesAdvanced Photocatalysis Techniques
Exciton Dipole Orientation and Dynamic Reactivity Synergistically Enable Overall Water Splitting in Covalent Organic Frameworks | Litcius