Photooxidation of water with heptazine-based molecular photocatalysts: Insights from spectroscopy and computational chemistry

Wolfgang Domcke, Andrzej L. Sobolewski, Cody W. Schlenker

Publikation: Beitrag in FachzeitschriftÜbersichtsartikelBegutachtung

18 Zitate (Scopus)

Abstract

We present a conspectus of recent joint spectroscopic and computational studies that provided novel insight into the photochemistry of hydrogen-bonded complexes of the heptazine (Hz) chromophore with hydroxylic substrate molecules (water and phenol). It was found that a functionalized derivative of Hz, tri-anisole-heptazine (TAHz), can photooxidize water and phenol in a homogeneous photochemical reaction. This allows the exploration of the basic mechanisms of the proton-coupled electron-transfer (PCET) process involved in the water photooxidation reaction in well-defined complexes of chemically tunable molecular chromophores with chemically tunable substrate molecules. The unique properties of the excited electronic states of the Hz molecule and derivatives thereof are highlighted. The potential energy landscape relevant for the PCET reaction has been characterized by judicious computational studies. These data provided the basis for the demonstration of rational laser control of PCET reactions in TAHz-phenol complexes by pump-push-probe spectroscopy, which sheds light on the branching mechanisms occurring by the interaction of nonreactive locally excited states of the chromophore with reactive intermolecular charge-transfer states. Extrapolating from these results, we propose a general scenario that unravels the complex photoinduced water-splitting reaction into simple sequential light-driven one-electron redox reactions followed by simple dark radical-radical recombination reactions.

OriginalspracheEnglisch
Aufsatznummer100902
FachzeitschriftJournal of Chemical Physics
Jahrgang153
Ausgabenummer10
DOIs
PublikationsstatusVeröffentlicht - 14 Sept. 2020

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