Comprehensive Framework for the Design of High-Performing and Sustainable Polyamides

Developing high-performance materials with tailored properties is a key challenge that requires innovative molecular design methods. This study presents a machine learning-based approach, integrating Monte Carlo tree search and a recurrent neural network for the molecular design of polyamide systems...

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Published in	ACS sustainable chemistry & engineering Vol. 12; no. 19; pp. 7338 - 7350
Main Authors	Muthoka, Ruth M., Park, Jinyoung, Yoo, Hyeonsuk, Suh, Min-ho, Lee, Yongjin
Format	Journal Article
Language	English
Published	American Chemical Society 13.05.2024
Subjects	Monte Carlo tree search recurrent neural network polyamides machine learning molecular dynamics sustainability
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Abstract	Developing high-performance materials with tailored properties is a key challenge that requires innovative molecular design methods. This study presents a machine learning-based approach, integrating Monte Carlo tree search and a recurrent neural network for the molecular design of polyamide systems, and we evaluate their properties with molecular dynamics simulations. By benchmarking against the performance of polyimides, we guide our algorithm to design sustainable polyamides with superior properties. A key consideration in our design approach is the incorporation of biodegradability as a critical design factor, in line with the growing demand for sustainable materials. We use an objective function targeting an optimal profile of low octanol–water partition coefficient (log P), high thermal stability (TSef), and substantial thermal conductivity (k). With 20 independent runs, which resulted in an evaluation of 133,655 monomers for design compatibility and generation of 5255 polyamide systems, our approach successfully designed promising 157 polyamide monomers, satisfying the criteria of log P < 0, TSef ≥ 2, and k ≥ 0.5 W/m K. These selections were validated by additional molecular dynamics (MD) calculations, revealing our objective function leads to sustainable and high-performance materials. Furthermore, we performed a detailed analysis of the structure–property relationship. Our algorithm successfully demonstrates the effectiveness of this integrated computational approach in guiding the design of novel polyamides.
AbstractList	Developing high-performance materials with tailored properties is a key challenge that requires innovative molecular design methods. This study presents a machine learning-based approach, integrating Monte Carlo tree search and a recurrent neural network for the molecular design of polyamide systems, and we evaluate their properties with molecular dynamics simulations. By benchmarking against the performance of polyimides, we guide our algorithm to design sustainable polyamides with superior properties. A key consideration in our design approach is the incorporation of biodegradability as a critical design factor, in line with the growing demand for sustainable materials. We use an objective function targeting an optimal profile of low octanol–water partition coefficient (log P), high thermal stability (TSef), and substantial thermal conductivity (k). With 20 independent runs, which resulted in an evaluation of 133,655 monomers for design compatibility and generation of 5255 polyamide systems, our approach successfully designed promising 157 polyamide monomers, satisfying the criteria of log P < 0, TSef ≥ 2, and k ≥ 0.5 W/m K. These selections were validated by additional molecular dynamics (MD) calculations, revealing our objective function leads to sustainable and high-performance materials. Furthermore, we performed a detailed analysis of the structure–property relationship. Our algorithm successfully demonstrates the effectiveness of this integrated computational approach in guiding the design of novel polyamides.
Author	Yoo, Hyeonsuk Suh, Min-ho Park, Jinyoung Lee, Yongjin Muthoka, Ruth M.
AuthorAffiliation	Supercomputing Application Center, Korea Institute of Science and Technology Information University of Science and Technology Department of Chemistry and Chemical Engineering, Education and Research Center for Smart Energy and Materials
AuthorAffiliation_xml	– name: Supercomputing Application Center, Korea Institute of Science and Technology Information – name: University of Science and Technology – name: Department of Chemistry and Chemical Engineering, Education and Research Center for Smart Energy and Materials
Author_xml	– sequence: 1 givenname: Ruth M. surname: Muthoka fullname: Muthoka, Ruth M. organization: Department of Chemistry and Chemical Engineering, Education and Research Center for Smart Energy and Materials – sequence: 2 givenname: Jinyoung orcidid: 0009-0002-8229-5780 surname: Park fullname: Park, Jinyoung organization: Department of Chemistry and Chemical Engineering, Education and Research Center for Smart Energy and Materials – sequence: 3 givenname: Hyeonsuk surname: Yoo fullname: Yoo, Hyeonsuk organization: Department of Chemistry and Chemical Engineering, Education and Research Center for Smart Energy and Materials – sequence: 4 givenname: Min-ho surname: Suh fullname: Suh, Min-ho email: mhsuh@kisti.re.kr organization: University of Science and Technology – sequence: 5 givenname: Yongjin orcidid: 0000-0001-8166-2935 surname: Lee fullname: Lee, Yongjin email: yongjin.lee@inha.ac.kr organization: Department of Chemistry and Chemical Engineering, Education and Research Center for Smart Energy and Materials
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