| Literature DB >> 29537704 |
Francesca Nunzi1,2,3, Diego Cesario1, Fernando Pirani1, Leonardo Belpassi2,3, Francesco Tarantelli1,2,3.
Abstract
We studied the nature of the interaction of the weakly bound Be-He adduct by means of an integrated theoretical approach based on high-level quantum chemical calculations for the characterization of the potential energy surfaces and charge displaced upon adduct formation, together with the development of a semi-empirical analytical formulation of the interaction potential. Our results show that Be is able to form a stable adduct with He when the Be(1 D) (1s2 2s2 →1s2 2s0 2p2 ) excited state is involved, with a binding energy of as much as 10.2 kcal/mol, an astonishingly large value for He in neutral systems. The analysis of the leading interaction components in the Be*-He adduct proves the relevance of the charge transfer to the overall stability, which contributes to decreasing the intermolecular distance, thus strengthening the induction-energy component.Entities:
Keywords: ab initio calculations; beryllium; charge transfer; helium; interaction potential
Year: 2018 PMID: 29537704 DOI: 10.1002/cphc.201800051
Source DB: PubMed Journal: Chemphyschem ISSN: 1439-4235 Impact factor: 3.102