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Chemical promenades: Exploring potential-energy surfaces with immersive virtual reality.

Marta MartinoAndrea SalvadoriFederico LazzariLorenzo PaoloniSurajit NandiGiordano ManciniVincenzo BaroneSergio Rampino
Published in: Journal of computational chemistry (2020)
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.
Keyphrases
  • virtual reality
  • human health
  • risk assessment
  • climate change
  • staphylococcus aureus
  • escherichia coli