π‐π Catalysis Made Asymmetric—Enantiomerization Catalysis Mediated by the Chiral π‐System of a Perylene Bisimide Cyclophane

Author:

Weh Manuel1,Kroeger Asja A.2ORCID,Shoyama Kazutaka3ORCID,Grüne Matthias1,Karton Amir24ORCID,Würthner Frank13ORCID

Affiliation:

1. Institut für Organische Chemie Universität Würzburg Am Hubland 97074 Würzburg Germany

2. School of Molecular Sciences The University of Western Australia 35 Stirling Highway Crawley WA 6009 Australia

3. Center for Nanosystems Chemistry & Bavarian Polymer Institute Universität Würzburg Theodor-Boveri-Weg 97074 Würzburg Germany

4. School of Science and Technology University of New England Armidale NSW 2351 Australia

Abstract

AbstractEnzymes actuate catalysis through a combination of transition state stabilization and ground state destabilization, inducing enantioselectivity through chiral binding sites. Here, we present a supramolecular model system which employs these basic principles to catalyze the enantiomerization of [5]helicene. Catalysis is hereby mediated not through a network of functional groups but through π‐π catalysis exerted from the curved aromatic framework of a chiral perylene bisimide (PBI) cyclophane offering a binding pocket that is intricately complementary with the enantiomerization transition structure. Although transition state stabilization originates simply from dispersion and electrostatic interactions, enantiomerization kinetics are accelerated by a factor of ca. 700 at 295 K. Comparison with the meso‐congener of the catalytically active cyclophane shows that upon configurational inversion in only one PBI moiety the catalytic effect is lost, highlighting the importance of precise transition structure recognition in supramolecular enzyme mimics.

Funder

Fonds der Chemischen Industrie

Forrest Research Foundation

Australian Research Council

National Computational Infrastructure

Helmholtz-Gemeinschaft

Publisher

Wiley

Subject

General Medicine

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