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A Photophysical Study of Sensitization‐Initiated Electron Transfer: Insights into the Mechanism of Photoredox Activity

Max Coles, Gina Quach, Jonathon E. Beves, Evan G. Moore

2020Angewandte Chemie International Edition67 citationsDOI

Abstract

The development of photocatalytic reactions has provided many novel opportunities to expand the scope of synthetic organic chemistry. In parallel with progress towards uncovering new reactivity, there is consensus that efforts focused on providing detailed mechanistic insight in order to uncover underlying excited-state reactions are essential to maximise formation of desired products. With this in mind, we have investigated the recently reported sensitization-initiated electron transfer (SenI-ET) reaction for the C-H arylation of activated aryl halides. Using a variety of techniques, and in particular nanosecond transient absorption spectroscopy, we are able to distinguish several characteristic signals from the excited-state species involved in the reaction, and subsequent kinetic analysis under various conditions has facilitated a detailed insight into the likely reaction mechanism.

Topics & Concepts

Electron transferChemistryUltrafast laser spectroscopyReactivity (psychology)PhotochemistryExcited stateMechanism (biology)SensitizationReaction mechanismBiochemical engineeringCombinatorial chemistrySpectroscopyCatalysisOrganic chemistryPhysicsNeuroscienceAtomic physicsMedicineQuantum mechanicsAlternative medicineEngineeringBiologyPathologyRadical Photochemical ReactionsSulfur-Based Synthesis TechniquesFluorine in Organic Chemistry
A Photophysical Study of Sensitization‐Initiated Electron Transfer: Insights into the Mechanism of Photoredox Activity | Litcius