Premium
A Homoleptic KrF 2 Complex, [Hg(KrF 2 ) 8 ][AsF 6 ] 2 ⋅2 HF
Author(s) -
De Backere John R.,
Schrobilgen Gary J.
Publication year - 2018
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201807755
Subject(s) - homoleptic , chemistry , dication , metal , coordination sphere , ligand (biochemistry) , inorganic chemistry , molecule , crystal structure , crystallography , biochemistry , receptor , organic chemistry
The reaction of Hg(AsF 6 ) 2 with a large molar excess of KrF 2 in anhydrous HF has afforded the first homoleptic KrF 2 coordination complex of a metal cation, [Hg(KrF 2 ) 8 ][AsF 6 ] 2 ⋅2 HF. The [Hg(KrF 2 ) 8 ] 2+ dication is well‐isolated in the low‐temperature crystal structure of its HF‐solvated [AsF 6 ] − salt, and consists of eight KrF 2 molecules that are terminally coordinated to Hg 2+ by means of Hg−F(KrF) bonds to form a slightly distorted, square‐antiprismatic coordination sphere around mercury. The Raman spectrum of [Hg(KrF 2 ) 8 ] 2+ was assigned with the aid of calculated gas‐phase vibrational frequencies. Computational studies indicate that both electrostatic and orbital interactions are important for metal–ligand bonding and provide insight into the geometry of the [Hg(KrF 2 ) 8 ] 2+ cation and the nature of noble‐gas difluoride ligand bonding.