Multiscale modeling of thermomechanical properties of stereoregular polymers

doi:10.1007/s00894-022-05214-8

. 2022 Jul 8;28(8):214.

doi: 10.1007/s00894-022-05214-8.

Multiscale modeling of thermomechanical properties of stereoregular polymers

Chaofu Wu¹

Affiliations

Affiliation

¹ Hunan Provincial Key Laboratory of Fine Ceramics and Powder Materials, School of Materials and Environmental Engineering, Hunan University of Humanities, Science and Technology, Loudi, Hunan, 417000, People's Republic of China. xiaowu759@hotmail.com.

PMID: 35802186
DOI: 10.1007/s00894-022-05214-8

Multiscale modeling of thermomechanical properties of stereoregular polymers

Chaofu Wu. J Mol Model. 2022.

. 2022 Jul 8;28(8):214.

doi: 10.1007/s00894-022-05214-8.

Author

Chaofu Wu¹

Affiliation

¹ Hunan Provincial Key Laboratory of Fine Ceramics and Powder Materials, School of Materials and Environmental Engineering, Hunan University of Humanities, Science and Technology, Loudi, Hunan, 417000, People's Republic of China. xiaowu759@hotmail.com.

PMID: 35802186
DOI: 10.1007/s00894-022-05214-8

Abstract

Multiscale coarse-grained (CG) models are expected to play the critical roles in molecular simulations of complex polymers. However, this poses a great challenge for accurately simulating their thermomechanical properties, for which excellent representability and transferability are required for the CG potentials. In this work, virtual sites and elastic network bonds are introduced to improve the structural and volumetric property-based CG models including explicit electrostatic interactions, which is exemplarily applied to the iso- and syndio-tactic poly(methyl methacrylate). A variety of thermomechanical properties of the two stereoregular polymer bulks are reasonably reproduced by the extensive molecular dynamics simulations with the so-parameterized CG potentials. In particular, the attractive nature of electrostatic interactions and tacticity effects on glass transition temperatures (T_g) are well captured. Furthermore, stronger electrostatic interactions lead to higher mass density and bulk modulus, and their effects on Young's modulus, Poisson's ratio, and shear modulus depend upon the chain tacticity. It is also demonstrated that all these elastic constants can be effectively modulated by imposing external electric field. The proposed multiscale scheme can be very valuable to molecular designs of polar polymer materials.

Keywords: Electric field; Electrostatic interactions; Mechanical properties; Molecular dynamics; Multiscale simulations.

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References

1. Tschop W, Kremer K, Batoulis J, Burger T, Hahn O (1998) Simulation of polymer melts. I Coarse-graining procedure for polycarbonates. Acta Polymer 49:61–74 - DOI
1. Fritz D, Harmandaris VA, Kremer K, van der Vegt NFA (2009) Coarse-grained polymer melts based on isolated atomistic chains: simulation of polystyrene of different tacticities. Macromolecules 42:7579–7588 - DOI
1. Muller-Plathe F (2002) Coarse-graining in polymer simulation: from the atomistic to the mesoscopic scale and back. ChemPhysChem 3:754–769 - DOI
1. Klein ML, Shinoda W (2008) Large-scale molecular dynamics simulations of self-assembling systems. Science 321:798–800 - PubMed - DOI
1. Voth GA (2009) Coarse-graining of condensed phase and biomolecular systems. CRC Press, London

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[1] Tschop W, Kremer K, Batoulis J, Burger T, Hahn O (1998) Simulation of polymer melts. I Coarse-graining procedure for polycarbonates. Acta Polymer 49:61–74 - DOI

[2] Tschop W, Kremer K, Batoulis J, Burger T, Hahn O (1998) Simulation of polymer melts. I Coarse-graining procedure for polycarbonates. Acta Polymer 49:61–74 - DOI

[3] Fritz D, Harmandaris VA, Kremer K, van der Vegt NFA (2009) Coarse-grained polymer melts based on isolated atomistic chains: simulation of polystyrene of different tacticities. Macromolecules 42:7579–7588 - DOI

[4] Fritz D, Harmandaris VA, Kremer K, van der Vegt NFA (2009) Coarse-grained polymer melts based on isolated atomistic chains: simulation of polystyrene of different tacticities. Macromolecules 42:7579–7588 - DOI

[5] Muller-Plathe F (2002) Coarse-graining in polymer simulation: from the atomistic to the mesoscopic scale and back. ChemPhysChem 3:754–769 - DOI

[6] Muller-Plathe F (2002) Coarse-graining in polymer simulation: from the atomistic to the mesoscopic scale and back. ChemPhysChem 3:754–769 - DOI

[7] Klein ML, Shinoda W (2008) Large-scale molecular dynamics simulations of self-assembling systems. Science 321:798–800 - PubMed - DOI

[8] Klein ML, Shinoda W (2008) Large-scale molecular dynamics simulations of self-assembling systems. Science 321:798–800 - PubMed - DOI

[9] Voth GA (2009) Coarse-graining of condensed phase and biomolecular systems. CRC Press, London

[10] Voth GA (2009) Coarse-graining of condensed phase and biomolecular systems. CRC Press, London

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Multiscale modeling of thermomechanical properties of stereoregular polymers

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Multiscale modeling of thermomechanical properties of stereoregular polymers

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