71. Bioinspired Ether Cyclizations within a π-Basic Capsule Compared to Autocatalysis on π-Acidic Surfaces and Pnictogen-Bonding Catalysts
    Xiaoyu Hao, Tian-Ren Li, Hao Chen, Andrea Gini, Xiang Zhang, Stéphane Rosset, Clément Mazet, Konrad Tiefenbacher,* Stefan Matile*
    Chem. Eur. J. 2021, 27, 12215-12223

While the integration of supramolecular principles in catalysis attracts increasing attention, a direct comparative assessment of the resulting systems catalysts to work-out distinct characteristics is often difficult.  Here, we report that the broad responsiveness of ether cyclizations to diverse input promises to fill this gap.  Cyclizations in the confined, π-basic and Brønsted acidic interior of supramolecular capsules, for instance, are found to excel with speed (exceeding general Brønsted acid and hydrogen-bonding catalysts by far) and selective violations of the Baldwin rules (as extreme as the so far unique pnictogen-bonding catalysts).  The complementary cyclization on π-acidic aromatic surfaces remains unique with regard to autocatalysis, which is shown to be chemo- and diastereoselective with regard to product-like co-catalysts but, so far, not enantioselective.

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DOI de la version éditeur : 10.1002/chem.202101548 (open access)