Using Data Science Tools to Reveal and Understand Subtle Relationships of Inhibitor Structure in Frontal Ring-Opening Metathesis Polymerization

Timothy P. McFadden; Reid B. Cope; Rachel Muhlestein; Dustin J. Layton; Jacob J. Lessard; Jeffrey S. Moore; Matthew S. Sigman

doi:10.1021/jacs.4c04622

Using Data Science Tools to Reveal and Understand Subtle Relationships of Inhibitor Structure in Frontal Ring-Opening Metathesis Polymerization

Timothy P. McFadden, Reid B. Cope, Rachel Muhlestein, Dustin J. Layton, Jacob J. Lessard, Jeffrey S. Moore, Matthew S. Sigman

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

Abstract

The rate of frontal ring-opening metathesis polymerization (FROMP) using the Grubbs generation II catalyst is impacted by both the concentration and choice of monomers and inhibitors, usually organophosphorus derivatives. Herein we report a data-science-driven workflow to evaluate how these factors impact both the rate of FROMP and how long the formulation of the mixture is stable (pot life). Using this workflow, we built a classification model using a single-node decision tree to determine how a simple phosphine structural descriptor (V_bur-near) can bin long versus short pot life. Additionally, we applied a nonlinear kernel ridge regression model to predict how the inhibitor and selection/concentration of comonomers impact the FROMP rate. The analysis provides selection criteria for material network structures that span from highly cross-linked thermosets to non-cross-linked thermoplastics as well as degradable and nondegradable materials.

Original language	English (US)
Pages (from-to)	16375-16380
Number of pages	6
Journal	Journal of the American Chemical Society
Volume	146
Issue number	24
Early online date	Jun 5 2024
DOIs	https://doi.org/10.1021/jacs.4c04622
State	Published - Jun 19 2024

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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10.1021/jacs.4c04622

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@article{0048388549684b4db1f1747bdf6030a3,

title = "Using Data Science Tools to Reveal and Understand Subtle Relationships of Inhibitor Structure in Frontal Ring-Opening Metathesis Polymerization",

abstract = "The rate of frontal ring-opening metathesis polymerization (FROMP) using the Grubbs generation II catalyst is impacted by both the concentration and choice of monomers and inhibitors, usually organophosphorus derivatives. Herein we report a data-science-driven workflow to evaluate how these factors impact both the rate of FROMP and how long the formulation of the mixture is stable (pot life). Using this workflow, we built a classification model using a single-node decision tree to determine how a simple phosphine structural descriptor (Vbur-near) can bin long versus short pot life. Additionally, we applied a nonlinear kernel ridge regression model to predict how the inhibitor and selection/concentration of comonomers impact the FROMP rate. The analysis provides selection criteria for material network structures that span from highly cross-linked thermosets to non-cross-linked thermoplastics as well as degradable and nondegradable materials.",

author = "McFadden, {Timothy P.} and Cope, {Reid B.} and Rachel Muhlestein and Layton, {Dustin J.} and Lessard, {Jacob J.} and Moore, {Jeffrey S.} and Sigman, {Matthew S.}",

note = "This work was primarily funded by the Department of Energy (Office of Basic Energy Sciences) as part of the Energy Frontier Research Center titled Regenerative Energy-Efficient Manufacturing of Thermoset Polymeric Materials (REMAT) under Award DE-SC0023457.",

year = "2024",

month = jun,

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doi = "10.1021/jacs.4c04622",

language = "English (US)",

volume = "146",

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T1 - Using Data Science Tools to Reveal and Understand Subtle Relationships of Inhibitor Structure in Frontal Ring-Opening Metathesis Polymerization

AU - McFadden, Timothy P.

AU - Cope, Reid B.

AU - Muhlestein, Rachel

AU - Layton, Dustin J.

AU - Lessard, Jacob J.

AU - Moore, Jeffrey S.

AU - Sigman, Matthew S.

N1 - This work was primarily funded by the Department of Energy (Office of Basic Energy Sciences) as part of the Energy Frontier Research Center titled Regenerative Energy-Efficient Manufacturing of Thermoset Polymeric Materials (REMAT) under Award DE-SC0023457.

PY - 2024/6/19

Y1 - 2024/6/19

N2 - The rate of frontal ring-opening metathesis polymerization (FROMP) using the Grubbs generation II catalyst is impacted by both the concentration and choice of monomers and inhibitors, usually organophosphorus derivatives. Herein we report a data-science-driven workflow to evaluate how these factors impact both the rate of FROMP and how long the formulation of the mixture is stable (pot life). Using this workflow, we built a classification model using a single-node decision tree to determine how a simple phosphine structural descriptor (Vbur-near) can bin long versus short pot life. Additionally, we applied a nonlinear kernel ridge regression model to predict how the inhibitor and selection/concentration of comonomers impact the FROMP rate. The analysis provides selection criteria for material network structures that span from highly cross-linked thermosets to non-cross-linked thermoplastics as well as degradable and nondegradable materials.

AB - The rate of frontal ring-opening metathesis polymerization (FROMP) using the Grubbs generation II catalyst is impacted by both the concentration and choice of monomers and inhibitors, usually organophosphorus derivatives. Herein we report a data-science-driven workflow to evaluate how these factors impact both the rate of FROMP and how long the formulation of the mixture is stable (pot life). Using this workflow, we built a classification model using a single-node decision tree to determine how a simple phosphine structural descriptor (Vbur-near) can bin long versus short pot life. Additionally, we applied a nonlinear kernel ridge regression model to predict how the inhibitor and selection/concentration of comonomers impact the FROMP rate. The analysis provides selection criteria for material network structures that span from highly cross-linked thermosets to non-cross-linked thermoplastics as well as degradable and nondegradable materials.

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Using Data Science Tools to Reveal and Understand Subtle Relationships of Inhibitor Structure in Frontal Ring-Opening Metathesis Polymerization

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