Issue 37, 2023

Solvation of cationic copper clusters in molecular hydrogen

Abstract

Multiply charged superfluid helium nanodroplets are utilized to facilitate the growth of cationic copper clusters (Cun+, where n = 1–8) that are subsequently solvated with up to 50 H2 molecules. Production of both pristine and protonated cationic Cu clusters are detected mass spectrometrically. A joint effort between experiment and theory allows us to understand the nature of the interactions determining the bonding between pristine and protonated Cu+ and Cu2+ cations and molecular hydrogen. The analysis reveals that in all investigated cationic clusters, the primary solvation shell predominantly exhibits a covalent bonding character, which gradually decreases in strength, while for the subsequent shells an exclusive non-covalent behaviour is found. Interestingly, the calculated evaporation energies associated with the first solvation shell markedly surpass thermal values, positioning them within the desirable range for hydrogen storage applications. This comprehensive study not only provides insights into the solvation of pristine and protonated cationic Cu clusters but also sheds light on their unique bonding properties.

Graphical abstract: Solvation of cationic copper clusters in molecular hydrogen

Supplementary files

Article information

Article type
Paper
Submitted
20 jul. 2023
Accepted
05 sep. 2023
First published
13 sep. 2023
This article is Open Access
Creative Commons BY license

Phys. Chem. Chem. Phys., 2023,25, 25251-25263

Solvation of cationic copper clusters in molecular hydrogen

O. V. Lushchikova, J. Reichegger, S. Kollotzek, F. Zappa, M. Mahmoodi-Darian, M. Bartolomei, J. Campos-Martínez, T. González-Lezana, F. Pirani and P. Scheier, Phys. Chem. Chem. Phys., 2023, 25, 25251 DOI: 10.1039/D3CP03452F

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