Issue 23, 2012

The prevalence of isocloso deltahedra in low-energy hypoelectronic metalladicarbaboranes with a single metal vertex: manganese and rhenium derivatives

Abstract

Theoretical studies on the hypoelectronic metalladicarbaboranes CpMC2Bn−3Hn−1 (M = Mn, Re; n = 9, 10, 11) having 2n skeletal electrons indicate that true isocloso MC2Bn−3 deltahedra are highly energetically favored in which the metal atom occupies the single degree 6 vertex. This contrasts with the previously studied isoelectronic diferradicarbaboranes Cp2Fe2C2Bn−3Hn−1 for which the isocloso structure is clearly favored only for the 10-vertex system. For the 12-vertex hypoelectronic manganadicarbaborane CpMnC2B9H11 with 2n (= 24) skeletal electrons the lowest energy structures have central MnC2B9 icosahedra. However, for the corresponding rhenadicarbaborane CpReC2B9H11 the lowest energy structures have central non-icosahedral ReC2B9 deltahedra with two degree 6 vertices, one of which is occupied by the rhenium atom. The low-energy structures for the metalladicarbaboranes studied in this work relate to the preferences of transition metal atoms for degree 6 vertices but those of boron and carbon for degree 5 and 4 vertices, respectively.

Graphical abstract: The prevalence of isocloso deltahedra in low-energy hypoelectronic metalladicarbaboranes with a single metal vertex: manganese and rhenium derivatives

Supplementary files

Article information

Article type
Paper
Submitted
23 Feb 2012
Accepted
02 Apr 2012
First published
10 Apr 2012

Dalton Trans., 2012,41, 7073-7081

The prevalence of isocloso deltahedra in low-energy hypoelectronic metalladicarbaboranes with a single metal vertex: manganese and rhenium derivatives

A. Lupan and R. B. King, Dalton Trans., 2012, 41, 7073 DOI: 10.1039/C2DT30442B

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