On the nature of [Fe3(CO)12] in the solid-state: The Ligand Polyhedral Model approach to the observed disorder

On the nature of [Fe3(CO)12] in the solid-state: The Ligand Polyhedral Model approach to the observed disorder

The Ligand Polyhedral Model for cluster carbonyls has been applied to the understanding of the disorder frequently observed in the crystalline state of these compounds. [Display omitted] The Ligand Polyhedral Model (LPM) has been applied to the solid-state structure of [Fe3(CO)12] and used to accoun...

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Bibliographic Details
Published in:Polyhedron Vol. 103; pp. 315 - 321
Main Author: Johnson, Brian F.G.
Format: Journal Article
Language:English
Published: Elsevier Ltd 08-01-2016
Subjects:
Carbonyl
Clusters
Disorder
Fluxional
Polyhedral
Clusters
Polyhedral
Carbonyl
Fluxional
Disorder
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Summary:The Ligand Polyhedral Model for cluster carbonyls has been applied to the understanding of the disorder frequently observed in the crystalline state of these compounds. [Display omitted] The Ligand Polyhedral Model (LPM) has been applied to the solid-state structure of [Fe3(CO)12] and used to account for the ‘Star of David’ disorder observed for the compound and its close relatives [Fe2Ru(CO)12] and [FeRu2(CO)12] from Single Crystal Crystallographic studies. The view is expressed that the observed disorder is a reflection of the arrangement of orientational isomers within the lattice which may be predicted from the LPM. The approach also offers the view that the asymmetric CO bridges observed for the molecular species with C2v symmetry in reality do not exist but are a reflection of the presence of the two isomeric forms C2v and D3 in the lattice. The case for LPM view of the fluxional behaviour of [Fe3(CO)12] is also restated in the light of these views of disorder and its origin.
ISSN:0277-5387
DOI:10.1016/j.poly.2015.06.032