Litcius/Paper detail

Chemical promenades: Exploring potential‐energy surfaces with immersive virtual reality

Marta Martino, Andrea Salvadori, Federico Lazzari, Lorenzo Paoloni, Surajit Nandi, Giordano Mancini, Vincenzo Barone, Sergio Rampino

2020Journal of Computational Chemistry37 citationsDOIOpen Access PDF

Abstract

The virtual-reality framework AVATAR (Advanced Virtual Approach to Topological Analysis of Reactivity) for the immersive exploration of potential-energy landscapes is presented. AVATAR is based on modern consumer-grade virtual-reality technology and builds on two key concepts: (a) the reduction of the dimensionality of the potential-energy surface to two process-tailored, physically meaningful generalized coordinates, and (b) the analogy between the evolution of a chemical process and a pathway through valleys (potential wells) and mountain passes (saddle points) of the associated potential energy landscape. Examples including the discovery of competitive reaction paths in simple A + BC collisional systems and the interconversion between conformers in ring-puckering motions of flexible rings highlight the innovation potential that augmented and virtual reality convey for teaching, training, and supporting research in chemistry.

Topics & Concepts

Virtual realityAvatarComputer scienceHuman–computer interactionArtificial realityPotential energyAnalogyEnergy (signal processing)Mixed realityPhysicsComputer-mediated realityLinguisticsQuantum mechanicsPhilosophyMolecular spectroscopy and chiralityMicrobial Natural Products and BiosynthesisPlant and animal studies