InteraChem: Virtual Reality Visualizer for Reactive Interactive Molecular Dynamics

Stefan Seritan; Yuanfeng Wang; Jason E. Ford; Alessio Valentini; Tom Gold; Todd J. Martínez

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InteraChem: Virtual Reality Visualizer for Reactive Interactive Molecular Dynamics

Stefan Seritan ^[1] ; Yuanheng Wang ^[1] ; Jason E. Ford ^[1] ; Alessio Valentini ^[1] ; Tom Gold ^[1] ; Todd J. Martínez ^[1]
1. [1] Stanford University
  
  Stanford University
  
  Estados Unidos
Localización: Journal of chemical education, ISSN 0021-9584, Vol. 98, Nº 11, 2021, págs. 3486-3492
Idioma: inglés
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Resumen
- Interactive molecular dynamics in virtual reality (IMD-VR) simulations provide a digital molecular playground for students as an alternative or complement to traditional molecular modeling kits or 2D illustrations. Previous IMD-VR studies have used molecular mechanics to enable simulations of macromolecules such as proteins and nanostructures for the classroom setting with considerable success. Here, we present the InteraChem molecular visualizer, intended for reactive IMD-VR simulation using semiempirical and ab initio methods. InteraChem visualizes not only the molecular geometry but also (1) isosurfaces such as molecular orbitals and electrostatic potentials and (2) two-dimensional graphs of time-varying simulation quantities such as kinetic/potential energy, internal coordinates, and user-applied force. Additionally, InteraChem employs speech recognition to facilitate user interaction and introduces a novel “atom happiness” visualization using emojis to indicate the energetic feasibility of a particular bonding arrangement. We include a set of accompanying exercises that we have used to teach chemical reactivity in small molecular systems.