About Underappreciated Yet Active Conformations of Thiourea Organocatalysts | Zendy

Adriana Supady | Zendy; Stefan Hecht | Zendy; Carsten Baldauf | Zendy

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About Underappreciated Yet Active Conformations of Thiourea Organocatalysts

Author(s) -

Adriana Supady,

Stefan Hecht,

Carsten Baldauf

Publication year - 2017

Publication title -

organic letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.94

H-Index - 239

eISSN - 1523-7060

pISSN - 1523-7052

DOI - 10.1021/acs.orglett.7b01782

Subject(s) - thiourea , chemistry , molecule , stacking , catalysis , substrate (aquarium) , hydrogen bond , mechanism (biology) , stereochemistry , function (biology) , computational chemistry , ketone , combinatorial chemistry , organic chemistry , philosophy , oceanography , epistemology , evolutionary biology , biology , geology

Conformational dynamics can define the function of organocatalysts. While the accepted mechanism of Schreiner's catalyst features a double hydrogen bond to the substrate that only forms with the anti-anti conformation of its central thiourea group, our electronic-structure theory study reveals that binding of the model substrate methyl vinyl ketone prefers syn-anti conformations. We find a new mechanism featuring π stacking interactions and highlight the need for extensive structure searches for flexible molecules, especially when aiming for structure-based design of catalytic activity.

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