Water co-catalysis in aerobic olefin epoxidation mediated by ruthenium oxo complexes

Qun Cao; Martin Diefenbach; Calum Maguire; Vera Krewald; Mark J Muldoon; Ulrich Hintermair

doi:10.1039/d3sc05516g

Water co-catalysis in aerobic olefin epoxidation mediated by ruthenium oxo complexes

Chem Sci. 2024 Jan 9;15(9):3104-3115. doi: 10.1039/d3sc05516g. eCollection 2024 Feb 28.

Authors

Qun Cao^{1

2}, Martin Diefenbach³, Calum Maguire¹, Vera Krewald³, Mark J Muldoon¹, Ulrich Hintermair²

Affiliations

¹ School of Chemistry and Chemical Engineering, Queen's University Belfast Northern Ireland UK m.j.muldoon@qub.ac.uk.
² Dynamic Reaction Monitoring Facility, Institute for Sustainability, University of Bath UK u.hintermair@bath.ac.uk.
³ Theoretical Chemistry, Department of Chemistry, Technische Universität Darmstadt Germany krewald@chemie.tu-darmstadt.de.

Abstract

We report the development of a versatile Ru-porphyrin catalyst system which performs the aerobic epoxidation of aromatic and aliphatic (internal) alkenes under mild conditions, with product yields of up to 95% and turnover numbers (TON) up to 300. Water is shown to play a crucial role in the reaction, significantly increasing catalyst efficiency and substrate scope. Detailed mechanistic investigations employing both computational studies and a range of experimental techniques revealed that water activates the Ru^VI di-oxo complex for alkene epoxidation via hydrogen bonding, stabilises the Ru^IV mono-oxo intermediate, and is involved in the regeneration of the Ru^VI di-oxo complex leading to oxygen atom exchange. Distinct kinetics are obtained in the presence of water, and side reactions involved in catalyst deactivation have been identified.