Regulating Access to Active Sites via Hydrogen Bonding and Cation–Dipole Interactions: A Dual Cofactor Approach to Switchable Catalysis

Abstract: Hydrogen bonding networks are ubiquitous in biological systems and play a key role in controlling the conformational dynamics and allosteric interactions of enzymes. Yet in small organometallic catalysts, hydrogen bonding rarely controls ligand binding to the metal center. In this work, a hydrogen bonding network within a well-defined organometallic catalyst works in concert with cation−dipole interactions to gate substrate access to the active site. An ammine ligand acts as one cofactor, templating a hydrogen… Show more