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Interactive molecular dynamics in virtual reality for modelling materials and catalysts.


ABSTRACT: Interactive molecular dynamics simulation in virtual reality (iMD-VR) is emerging as a promising technique in molecular science. Here, we demonstrate its use in a range of fifteen applications in materials science and heterogeneous catalysis. In this work, the iMD-VR package Narupa is used with the MD package, DL_POLY [1]. We show how iMD-VR can be used to: (i) investigate the mechanism of lithium fast ion conduction by directing the formation of defects showing that vacancy transport is favoured over interstitialcy mechanisms, and (ii) guide a molecule through a zeolite pore to explore diffusion within zeolites, examining in detail the motion of methyl n-hexanoate in H-ZSM-5 zeolite and identifying bottlenecks restricting diffusion. iMD-VR allows users to manipulate these systems intuitively, to drive changes in them and observe the resulting changes in structure and dynamics. We make these simulations available, as a resource for both teaching and research. All simulation files, with videos, can be found online (https://doi.org/10.5281/zenodo.8252314) and are provided as open-source material.

SUBMITTER: Crossley-Lewis J 

PROVIDER: S-EPMC7616772 | biostudies-literature | 2023 Dec

REPOSITORIES: biostudies-literature

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Interactive molecular dynamics in virtual reality for modelling materials and catalysts.

Crossley-Lewis Joe J   Dunn Josh J   Buda Corneliu C   Sunley Glenn J GJ   Elena Alin M AM   Todorov Ilian T IT   Yong Chin W CW   Glowacki David R DR   Mulholland Adrian J AJ   Allan Neil L NL  

Journal of molecular graphics & modelling 20230824


Interactive molecular dynamics simulation in virtual reality (iMD-VR) is emerging as a promising technique in molecular science. Here, we demonstrate its use in a range of fifteen applications in materials science and heterogeneous catalysis. In this work, the iMD-VR package Narupa is used with the MD package, DL_POLY [1]. We show how iMD-VR can be used to: (i) investigate the mechanism of lithium fast ion conduction by directing the formation of defects showing that vacancy transport is favoure  ...[more]

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