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Unravelling Enzymatic Features in a Supramolecular Iridium Catalyst by Computational Calculations
Authors:Michele Tomasini  Dr. Lucia Caporaso  Jonathan Trouvé  Dr. Jordi Poater  Dr. Rafael Gramage-Doria  Dr. Albert Poater
Affiliation:1. Institut de Química Computacional i Catàlisi, Departament de Química, Universitat de Girona, c/Mª Aurèlia Capmany 69, 17003 Girona, Catalonia, Spain;2. Department of Chemistry, University of Salerno, Via Ponte Don Melillo, 84084 Fisciano, Italy;3. Univ Rennes, CNRS, ISCR – UMR 6226, F-35000 Rennes, France;4. Departament de Química Inorgànica i Orgànica & IQTCUB, Universitat de Barcelona, 08028 Barcelona, Spain
Abstract:Non-biological catalysts following the governing principles of enzymes are attractive systems to disclose unprecedented reactivities. Most of those existing catalysts feature an adaptable molecular recognition site for substrate binding that are prone to undergo conformational selection pathways. Herein, we present a non-biological catalyst that is able to bind substrates via the induced fit model according to in-depth computational calculations. The system, which is constituted by an inflexible substrate-recognition site derived from a zinc-porphyrin in the second coordination sphere, features destabilization of ground states as well as stabilization of transition states for the relevant iridium-catalyzed C−H bond borylation of pyridine. In addition, this catalyst appears to be most suited to tightly bind the transition state rather than the substrate. Besides these features, which are reminiscent of the action modes of enzymes, new elementary catalytic steps (i. e. C−B bond formation and catalyst regeneration) have been disclosed owing to the unique distortions encountered in the different intermediates and transition states.
Keywords:C−H functionalization  DFT calculations  enzyme mimics  iridium  supramolecular catalysis
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