Abstract
We present putative global minima for the micro-hydrated sulfite SO
3
2−
(H
2
O)
N
and chlorate ClO
3
−
(H
2
O)
N
systems in the range 3≤
N
≤15 found using basin-hopping global structure optimization with an empirical potential. We present a structural analysis of the hydration of a large number of minimized structures for hydrated sulfite and chlorate clusters in the range 3≤
N
≤50. We show that sulfite is a significantly stronger net acceptor of hydrogen bonding within water clusters than chlorate, completely suppressing the appearance of hydroxyl groups pointing out from the cluster surface (dangling OH bonds), in low-energy clusters. We also present a qualitative analysis of a highly explored energy landscape in the region of the global minimum of the eight water hydrated sulfite and chlorate systems.
This article is part of the theme issue ‘Modern theoretical chemistry’.
Funder
Engineering and Physical Sciences Research Council, UK
MidPlus Regional Centre of Excellence for Computational Science, Engineering and Mathematics
Subject
General Physics and Astronomy,General Engineering,General Mathematics
Cited by
4 articles.
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