Conformation Dependent Features of Bisphosphine Ligands

Brock A. Stenfors; Jamie A. Cadge; Santeri Aikonen; Guilian Luchini; Jessica Wahlers; Kevin Koh; Mikko Muuronen; Maximilian Menche; Mark Pfeifle; Angus Keto; Robert S. Paton; Matthew S. Sigman; Olaf Wiest

doi:10.1021/acs.joc.5c01682

Conformation Dependent Features of Bisphosphine Ligands

Brock A. Stenfors, Jamie A. Cadge, Santeri Aikonen, Guilian Luchini, Jessica Wahlers, Kevin Koh, Mikko Muuronen, Maximilian Menche, Mark Pfeifle, Angus Keto, Robert S. Paton, Matthew S. Sigman, Olaf Wiest

Research output: Contribution to journal › Article › peer-review

Abstract

Phosphines are a ubiquitous class of ligand in transition-metal (TM) catalyzed reactions. Data-driven methods using feature databases have shown promise in expediting the selection of optimal ligands for various catalytic processes. However, feature development can be challenging as many phosphine-based ligands, exemplified by bisphosphines, have diverse structural features resulting from their conformationally dependent reactivity. We present here an automated conformational analysis workflow to overcome this challenge in which a conformational ensemble of surrogate palladium-bisphosphine complexes was constructed and featurized. The resulting database contains 78 features for 147 commercially available bisphosphines, including ferrocene and atropisomeric ligands. The conformational dependence of the features is discussed and then compared in multivariate linear regression (MLR) models for an enantioselective Hayashi-Heck reaction, which resulted in improved performance using conformation-dependent features.

Original language	English
Pages (from-to)	13874-13884
Number of pages	11
Journal	Journal of Organic Chemistry
Volume	90
Issue number	39
Early online date	22 Sept 2025
DOIs	https://doi.org/10.1021/acs.joc.5c01682
Publication status	Published - 3 Oct 2025

Data Availability Statement

The data underlying this study are available in the published
article, in its Supporting Information, and openly available in
github at https://github.com/nsf-c-cas/bisphosphine_data

ASJC Scopus subject areas

Organic Chemistry

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10.1021/acs.joc.5c01682

Cite this

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title = "Conformation Dependent Features of Bisphosphine Ligands",

abstract = "Phosphines are a ubiquitous class of ligand in transition-metal (TM) catalyzed reactions. Data-driven methods using feature databases have shown promise in expediting the selection of optimal ligands for various catalytic processes. However, feature development can be challenging as many phosphine-based ligands, exemplified by bisphosphines, have diverse structural features resulting from their conformationally dependent reactivity. We present here an automated conformational analysis workflow to overcome this challenge in which a conformational ensemble of surrogate palladium-bisphosphine complexes was constructed and featurized. The resulting database contains 78 features for 147 commercially available bisphosphines, including ferrocene and atropisomeric ligands. The conformational dependence of the features is discussed and then compared in multivariate linear regression (MLR) models for an enantioselective Hayashi-Heck reaction, which resulted in improved performance using conformation-dependent features.",

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doi = "10.1021/acs.joc.5c01682",

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T1 - Conformation Dependent Features of Bisphosphine Ligands

AU - Stenfors, Brock A.

AU - Cadge, Jamie A.

AU - Aikonen, Santeri

AU - Luchini, Guilian

AU - Wahlers, Jessica

AU - Koh, Kevin

AU - Muuronen, Mikko

AU - Menche, Maximilian

AU - Pfeifle, Mark

AU - Keto, Angus

AU - Paton, Robert S.

AU - Sigman, Matthew S.

AU - Wiest, Olaf

PY - 2025/10/3

Y1 - 2025/10/3

N2 - Phosphines are a ubiquitous class of ligand in transition-metal (TM) catalyzed reactions. Data-driven methods using feature databases have shown promise in expediting the selection of optimal ligands for various catalytic processes. However, feature development can be challenging as many phosphine-based ligands, exemplified by bisphosphines, have diverse structural features resulting from their conformationally dependent reactivity. We present here an automated conformational analysis workflow to overcome this challenge in which a conformational ensemble of surrogate palladium-bisphosphine complexes was constructed and featurized. The resulting database contains 78 features for 147 commercially available bisphosphines, including ferrocene and atropisomeric ligands. The conformational dependence of the features is discussed and then compared in multivariate linear regression (MLR) models for an enantioselective Hayashi-Heck reaction, which resulted in improved performance using conformation-dependent features.

AB - Phosphines are a ubiquitous class of ligand in transition-metal (TM) catalyzed reactions. Data-driven methods using feature databases have shown promise in expediting the selection of optimal ligands for various catalytic processes. However, feature development can be challenging as many phosphine-based ligands, exemplified by bisphosphines, have diverse structural features resulting from their conformationally dependent reactivity. We present here an automated conformational analysis workflow to overcome this challenge in which a conformational ensemble of surrogate palladium-bisphosphine complexes was constructed and featurized. The resulting database contains 78 features for 147 commercially available bisphosphines, including ferrocene and atropisomeric ligands. The conformational dependence of the features is discussed and then compared in multivariate linear regression (MLR) models for an enantioselective Hayashi-Heck reaction, which resulted in improved performance using conformation-dependent features.

UR - https://www.scopus.com/pages/publications/105017807852

U2 - 10.1021/acs.joc.5c01682

DO - 10.1021/acs.joc.5c01682

M3 - Article

AN - SCOPUS:105017807852

SN - 0022-3263

VL - 90

SP - 13874

EP - 13884

JO - Journal of Organic Chemistry

JF - Journal of Organic Chemistry

IS - 39

ER -

Conformation Dependent Features of Bisphosphine Ligands

Abstract

Data Availability Statement

ASJC Scopus subject areas

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