Issue 21, 2024

Light switching for product selectivity control in photocatalysis

Abstract

Artificial switchable catalysis is a new, rapidly expanding field that offers great potential advantages for both homogeneous and heterogeneous catalytic systems. Light irradiation is widely accepted as the best stimulus to artificial switchable chemical systems. In recent years, tremendous progress has been made in the synthesis and application of photo-switchable catalysts that can control when and where bond formation and dissociation take place in reactant molecules. Photo-switchable catalysis is a niche area in current catalysis, on which systematic analysis and reviews are still lacking in the scientific literature, yet it offers many intriguing and versatile applications, particularly in organic synthesis. This review aims to highlight the recent advances in photo-switchable catalyst systems that can result in two different chemical product outcomes and thus achieve a degree of control over organic synthetic reactions. Furthermore, this review evaluates different approaches that have been employed to achieve dynamic control over both the catalytic function and the selectivity of several different types of synthesis reactions, along with the remaining challenges and potential opportunities. Owing to the great diversity of the types of reactions and conditions adopted, a quantitative comparison of efficiencies between considered systems is not the focus of this review, instead the review showcases how insights from successful adopted strategies can help better harness and channel the power of photoswitchability in this new and promising area of catalysis research.

Graphical abstract: Light switching for product selectivity control in photocatalysis

Article information

Article type
Minireview
Submitted
01 mar 2024
Accepted
21 abr 2024
First published
29 abr 2024

Nanoscale, 2024,16, 10168-10207

Light switching for product selectivity control in photocatalysis

B. G. D. Peelikuburage, W. N. Martens and E. R. Waclawik, Nanoscale, 2024, 16, 10168 DOI: 10.1039/D4NR00885E

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