A Comprehensive Discovery Platform for Organophosphorus Ligands for Catalysis

A Comprehensive Discovery Platform for Organophosphorus Ligands for Catalysis

The design of molecular catalysts typically involves reconciling multiple conflicting property requirements, largely relying on human intuition and local structural searches. However, the vast number of potential catalysts requires pruning of the candidate space by efficient property prediction with...

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Bibliographic Details
Published in:Journal of the American Chemical Society Vol. 144; no. 3; pp. 1205 - 1217
Main Authors: Gensch, Tobias, dos Passos Gomes, Gabriel, Friederich, Pascal, Peters, Ellyn, Gaudin, Théophile, Pollice, Robert, Jorner, Kjell, Nigam, AkshatKumar, Lindner-D’Addario, Michael, Sigman, Matthew S, Aspuru-Guzik, Alán
Format: Journal Article
Language:English
Published: United States American Chemical Society 26-01-2022
Online Access:Get full text
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Summary:The design of molecular catalysts typically involves reconciling multiple conflicting property requirements, largely relying on human intuition and local structural searches. However, the vast number of potential catalysts requires pruning of the candidate space by efficient property prediction with quantitative structure–property relationships. Data-driven workflows embedded in a library of potential catalysts can be used to build predictive models for catalyst performance and serve as a blueprint for novel catalyst designs. Herein we introduce kraken, a discovery platform covering monodentate organophosphorus­(III) ligands providing comprehensive physicochemical descriptors based on representative conformer ensembles. Using quantum-mechanical methods, we calculated descriptors for 1558 ligands, including commercially available examples, and trained machine learning models to predict properties of over 300000 new ligands. We demonstrate the application of kraken to systematically explore the property space of organophosphorus ligands and how existing data sets in catalysis can be used to accelerate ligand selection during reaction optimization.
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ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.1c09718