The discovery of propylene oxide in the interstellar medium has raised considerable interest about this molecule, which represents one of the simplest cases of chiral systems. In this paper, we present a quantum chemical study and a phenomenological approach, through the Pirani potential function, of the system He – propylene oxide in fourteen different configurations. Comparison of the optimized molecular structure at various level of theory, as well as a discussion on the two approaches is reported. The analytical form of the Pirani potential function permits future applications of classical simulations of molecular-beam collision experiments, especially to those related to chirality discrimination phenomena, in progress in our laboratory.
Potential energy surface for the interaction of helium with the chiral molecule propylene oxide
Aquilanti, Vincenzo;Faginas-Lago, Noelia;Grossi, Gaia;Lombardi, Andrea;Palazzetti, Federico
;Pirani, Fernando
2018
Abstract
The discovery of propylene oxide in the interstellar medium has raised considerable interest about this molecule, which represents one of the simplest cases of chiral systems. In this paper, we present a quantum chemical study and a phenomenological approach, through the Pirani potential function, of the system He – propylene oxide in fourteen different configurations. Comparison of the optimized molecular structure at various level of theory, as well as a discussion on the two approaches is reported. The analytical form of the Pirani potential function permits future applications of classical simulations of molecular-beam collision experiments, especially to those related to chirality discrimination phenomena, in progress in our laboratory.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.