Watching a Full Photocatalytic Cycle by Electron Paramagnetic Resonance

Abstract: Molecular photocatalysis has shown tremendous success in sustainable energy and chemical synthesis. However, visualizing the intricate mechanisms in photocatalysis is a significant and long-standing challenge. By employing our recently developed sensitivity-enhanced time-resolved electron paramagnetic resonance technique, we directly observed all radicals and radical ions involved in the photocatalytic addition of a tertiary amine to tert-butyl acrylate. The full picture of the photocatalytic cycle has been vi… Show more

“…e However, the nido -carborane radical could not be observed in the reaction system, which may be attributed to its short lifetime or quick subsequent conversion. Recently, one of the authors’ team has developed an advanced time-resolved EPR technique based on innovative ultrawide single sideband phase-sensitive detection (U-PSD), namely U-PSD TREPR, which provides exceptional detection sensitivity for radical intermediates in the course of reaction . This technique enabled us to directly probe the transient nido -carborane radical in this study.…”

Photoinduced Selective B–H Activation of nido-Carboranes

“…e However, the nido -carborane radical could not be observed in the reaction system, which may be attributed to its short lifetime or quick subsequent conversion. Recently, one of the authors’ team has developed an advanced time-resolved EPR technique based on innovative ultrawide single sideband phase-sensitive detection (U-PSD), namely U-PSD TREPR, which provides exceptional detection sensitivity for radical intermediates in the course of reaction . This technique enabled us to directly probe the transient nido -carborane radical in this study.…”

Photoinduced Selective B–H Activation of nido-Carboranes