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Long-Lived Triplet Excited State in a Heterogeneous Modified Carbon Nitride Photocatalyst

Adam J. Rieth, Yangzhong Qin, Benjamin Martindale, Daniel G. Nocera

2021Journal of the American Chemical Society87 citationsDOIOpen Access PDF

Abstract

Heterogeneous carbon nitrides have numerous advantages as photocatalysts, including strong light absorption, tunable band edges, and scalability, but their performance and continued development are limited by fast charge recombination and an under-developed mechanistic understanding of photodriven interfacial electron transfer. These shortcomings are a result of complex photophysics, leading to rate asynchrony between oxidation and reduction, as well as redox processes driven out of electronic trap states rather than excited states. We show that a well-defined triplet excited state in cyanamide-modified carbon nitride is realized with appropriately sized particles. The utility of this long-lived excited state is demonstrated by its ability to drive a hydroamidation photoredox cycle. By the tuning of the particle size of CNx, the oxidation–reduction photochemistry of carbon nitride may be balanced to achieve a redox-neutral closed photocatalytic cycle. These results uncover a triplet excited state chemistry for appropriately sized CNx particles that preludes a rich energy and electron transfer photochemistry for these materials.

Topics & Concepts

ChemistryExcited stateCarbon nitridePhotocatalysisElectron transferPhotochemistryGraphitic carbon nitrideCarbon fibersNitrideRedoxChemical physicsAtomic physicsInorganic chemistryCatalysisMaterials scienceOrganic chemistryComposite numberPhysicsLayer (electronics)Composite materialAdvanced Photocatalysis TechniquesRadical Photochemical ReactionsPerovskite Materials and Applications
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