Local Structure and Dynamics of Trans-polyisoprene oligomers
TLDR
In this article, a force field is developed by means of a mixture of ab initio quantum-chemistry and an automatic generation of empirical parameters, which can be successfully mapped onto a simple model including only beads for the monomers with bond springs and bond angle potentials.Abstract:
Mono- and poly-disperse melts of oligomers (average length 10 monomers) of trans-1,4-polyisoprene are simulated in full atomistic detail. The force-field is developed by means of a mixture of ab initio quantum-chemistry and an automatic generation of empirical parameters. Comparisons to NMR and scattering experiments validate the model. The local reorientation dynamics shows that for C$-$H vectors there is a two-stage process consisting of an initial decay and a late-stage decorrelation originating from overall reorientation. The atomistic model can be successfully mapped onto a simple model including only beads for the monomers with bond springs and bond angle potentials. End-bridging Monte Carlo as an equilibration stage and molecular dynamics as the subsequent simulation method together prove to be a useful method for polymer simulations.read more
Citations
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Journal ArticleDOI
Deriving effective mesoscale potentials from atomistic simulations.
TL;DR: In this paper, an iterative method for potential inversion from distribution functions developed for simple liquid systems can be generalized to polymer systems, using the differences in the potentials of mean force between the distribution functions generated from a guessed potential and the true distribution functions to improve the effective potential successively.
Journal ArticleDOI
Mapping atomistic simulations to mesoscopic models: a systematic coarse-graining procedure for vinyl polymer chains.
TL;DR: A systematic procedure to coarse-grain atomistic models of the largest family of synthetic polymers into a mesoscopic model that is able to keep detailed information about chain stereosequences and opens the possibility of relaxing melts of high molecular weight vinyl polymers.
Journal ArticleDOI
Challenges in Multiscale Modeling of Polymer Dynamics
TL;DR: In this article, the authors discuss and compare eleven different multiscale computational techniques falling under three categories: (i) coarse-graining methods for generic polymers; (ii) systematic coarse-grounding methods and (iii) multiple-scale-bridging methods.
Journal ArticleDOI
Molecular scale simulations on thermoset polymers: A review
Chunyu Li,Alejandro Strachan +1 more
TL;DR: A review of the field of molecular simula-tions of thermoset polymers can be found in this paper, where the authors focus on modeling and simulation of the pro- cess of curing to predict the molecular structure of these polymers and their thermomechanical response by all-atom molecular dynamics simulations.
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Automatic coarse graining of polymers
TL;DR: In this paper, semi-automatic and fully-automatic coarse-graining schemes for polymer simulations are discussed and several ways to obtain a time-scale for dynamic mapping are discussed additionally.
References
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Book
CRC Handbook of Chemistry and Physics
TL;DR: CRC handbook of chemistry and physics, CRC Handbook of Chemistry and Physics, CRC handbook as discussed by the authors, CRC Handbook for Chemistry and Physiology, CRC Handbook for Physics,
Book
Computer Simulation of Liquids
Michael P. Allen,D. J. Tildesley +1 more
TL;DR: In this paper, the gear predictor -corrector is used to calculate forces and torques in a non-equilibrium molecular dynamics simulation using Monte Carlo methods. But it is not suitable for the gear prediction problem.