Computational Phase Discovery in Block Polymers

Kevin D. Dorfman

Computational Phase Discovery in Block Polymers

Kevin D. Dorfman

Chemical Engineering and Materials Science

Research output: Contribution to journal › Review article › peer-review

1 Scopus citations

Abstract

Self-consistent field theory (SCFT), the mean-field theory of polymer thermodynamics, is a powerful tool for understanding ordered state selection in block copolymer melts and blends. However, the nonlinear governing equations pose a significant challenge when SCFT is used for phase discovery because converging an SCFT solution typically requires an initial guess close to the self-consistent solution. This Viewpoint provides a concise overview of recent efforts where machine learning methods (particle swarm optimization, Bayesian optimization, and generative adversarial networks) have been used to make the first strides toward converting SCFT from a primarily explanatory tool into one that can be readily deployed for phase discovery.

Original language	English (US)
Pages (from-to)	1612-1619
Number of pages	8
Journal	ACS Macro Letters
Volume	13
Issue number	12
State	Published - Dec 17 2024

Bibliographical note

Publisher Copyright:
© 2024 American Chemical Society.

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https://pubs.acs.org/doi/10.1021/acsmacrolett.4c00661

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IRG-2: Mesoscale Network Materials
Mahanthappa, M. (Senior Investigator), Bates, F. S. (Senior Investigator), Calabrese, M. A. (Senior Investigator), Dorfman, K. (Senior Investigator), Ellison, C. J. (Senior Investigator), Ferry, V. E. (Senior Investigator), Lozano, K. (Senior Investigator), Reineke, T. M. (Senior Investigator) & Siepmann, I. (Senior Investigator)
9/1/20 → 8/31/26
Project: IRG
University of Minnesota Materials Research Science and Engineering Center (DMR-2011401)
Leighton, C. (PI) & Lodge, T. (CoI)
THE NATIONAL SCIENCE FOUNDATION
9/1/20 → 8/31/26
Project: Research project

Cite this

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title = "Computational Phase Discovery in Block Polymers",

abstract = "Self-consistent field theory (SCFT), the mean-field theory of polymer thermodynamics, is a powerful tool for understanding ordered state selection in block copolymer melts and blends. However, the nonlinear governing equations pose a significant challenge when SCFT is used for phase discovery because converging an SCFT solution typically requires an initial guess close to the self-consistent solution. This Viewpoint provides a concise overview of recent efforts where machine learning methods (particle swarm optimization, Bayesian optimization, and generative adversarial networks) have been used to make the first strides toward converting SCFT from a primarily explanatory tool into one that can be readily deployed for phase discovery.",

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N2 - Self-consistent field theory (SCFT), the mean-field theory of polymer thermodynamics, is a powerful tool for understanding ordered state selection in block copolymer melts and blends. However, the nonlinear governing equations pose a significant challenge when SCFT is used for phase discovery because converging an SCFT solution typically requires an initial guess close to the self-consistent solution. This Viewpoint provides a concise overview of recent efforts where machine learning methods (particle swarm optimization, Bayesian optimization, and generative adversarial networks) have been used to make the first strides toward converting SCFT from a primarily explanatory tool into one that can be readily deployed for phase discovery.

AB - Self-consistent field theory (SCFT), the mean-field theory of polymer thermodynamics, is a powerful tool for understanding ordered state selection in block copolymer melts and blends. However, the nonlinear governing equations pose a significant challenge when SCFT is used for phase discovery because converging an SCFT solution typically requires an initial guess close to the self-consistent solution. This Viewpoint provides a concise overview of recent efforts where machine learning methods (particle swarm optimization, Bayesian optimization, and generative adversarial networks) have been used to make the first strides toward converting SCFT from a primarily explanatory tool into one that can be readily deployed for phase discovery.

M3 - Review article

C2 - 39531003

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VL - 13

SP - 1612

EP - 1619

JO - ACS Macro Letters

JF - ACS Macro Letters

IS - 12

ER -

Computational Phase Discovery in Block Polymers

Abstract

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IRG-2: Mesoscale Network Materials

University of Minnesota Materials Research Science and Engineering Center (DMR-2011401)

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