Issue 13, 2021

Modelling interactions of cationic dimers in He droplets: microsolvation trends in HenK2+ clusters

Abstract

We report the results of a detailed theoretical investigation of small K2+-doped He clusters. The structural characteristics and stabilities of such cations are determined from ab initio electronic structure calculations at the MRCI+Q level of theory. The underlying interactions show a multireference character and such effects are analyzed. The interaction potentials are constructed employing an interpolation technique within the inverse problem theory method, while the nuclear quantum effects are computed for the trimers, their spatial arrangements are discussed, and information was extracted on the orientational anisotropy of the forces. We found that energetically the most stable conformer corresponds to linear arrangements that are taking place under large amplitude vibrations, with high zero-point energy. We have further looked into the behavior of higher-order species with various He atoms surrounding the cationic dopant. By using a sum of potentials approach and an evolutionary programming method, we analyzed the structural stability of clusters with up to six He atoms in comparison with interactions energies obtained from MRCI+Q quantum chemistry computations. Structures containing Hen motifs that characterize pure rare gas clusters, appear for the larger K2+-doped He clusters, showing selective growth during the microsolvation process of the alkali-dimer cation surrounded by He atoms. Such results indicate the existence of local solvation microstructures in these aggregates, where the cationic impurity could get trapped for a short time, contributing to the slow ionic mobility observed experimentally in ultra-cold He-droplets.

Graphical abstract: Modelling interactions of cationic dimers in He droplets: microsolvation trends in HenK2+ clusters

Supplementary files

Article information

Article type
Paper
Submitted
14 Okt 2020
Accepted
10 Nov 2020
First published
11 Nov 2020
This article is Open Access
Creative Commons BY-NC license

Phys. Chem. Chem. Phys., 2021,23, 7849-7859

Modelling interactions of cationic dimers in He droplets: microsolvation trends in HenK2+ clusters

N. Alharzali, R. Rodríguez-Segundo and R. Prosmiti, Phys. Chem. Chem. Phys., 2021, 23, 7849 DOI: 10.1039/D0CP05406B

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