Multiscale Modeling of Vinyl-Addition Polynorbornenes: The Effect of Stereochemistry

Author:

Shahidi Nobahar1ORCID,Laub Jeffrey A.2,Vogiatzis Konstantinos D.2ORCID,Doxastakis Manolis1ORCID

Affiliation:

1. Department of Chemical and Biomolecular Engineering, University of Tennessee, Knoxville, TN 37996, USA

2. Department of Chemistry, University of Tennessee, Knoxville, TN 37996, USA

Abstract

Vinyl-addition polynorbornenes are candidates for designing high-performance polymers due to unique characteristics, which include a high glass transition temperature associated with a rigid backbone. Recent studies have established that the processability and properties of these polymers can be fine-tuned by using targeted substitutions. However, synthesis with different catalysts results in materials with distinct properties, potentially due to the presence of various stereoisomers that are difficult to quantify experimentally. Herein, we develop all-atom models of polynorbornene oligomers based on classical force fields and density functional theory. To establish the relationship between chemical architecture, chain conformations, and melt structure, we perform detailed molecular dynamics simulations with the fine-tuned atomistic force field and propose simpler coarse-grained descriptions to address the high molecular weight limit. All-atom simulations of oligomers suggest high glass transition temperatures in the range of 550–600 K. In the melt state (800 K), meso chains form highly rigid extended coils (C∞≈11) with amorphous structural characteristics similar to the X-ray diffraction data observed in the literature. In contrast, simulations with racemo chains predict highly helical tubular chain conformations that could promote assembly into crystalline structures.

Funder

U.S. Department of Energy’s Office of Energy Efficiency and Renewable Energy

Publisher

MDPI AG

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