Structure and bonding in cyclic isomers of BAl2Hnm (n=3-6, m=-2 to +1): preference for planar tetracoordination, pyramidal tricoordination, and divalency

Jemmis, Eluvathingal D. ; Parameswaran, Pattiyil (2007) Structure and bonding in cyclic isomers of BAl2Hnm (n=3-6, m=-2 to +1): preference for planar tetracoordination, pyramidal tricoordination, and divalency Chemistry: A European Journal, 13 (9). pp. 2622-2631. ISSN 0947-6539

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Official URL: http://www3.interscience.wiley.com/journal/1140333...

Related URL: http://dx.doi.org/10.1002/chem.200601132

Abstract

The structure and energetics of cyclic BAl2Hnm (n=3-6, m=-2 to +1), calculated at the B3LYP/6-311+G∗∗ and QCISD(T)/6-311++G∗∗ levels, are compared with their corresponding homocyclic boron and aluminium analogues. Structures in which the boron and aluminium atoms have coordination numbers of up to six are found to be minima. There is a parallel between structure and bonding in isomers of BAl2H32- and BSi2H3. The number of structures that contain hydrogens out of the BAl2 ring plane is found to increase from BAl2H32- to BAl2H6+. Double bridging at one bond is common in BAl2H5 and BAl2H6+. Similarly, species with lone pairs on the divalent boron and aluminium atoms are found to be minima on the potential energy surface of BAl2H32-. BAl2H4- (2b) is the first example of a structure with planar tetracoordinate boron and aluminium atoms in the same structure. Bridging hydrogen atoms on the BAl bond prefer not to be in the BAl2 plane so that the π MO is stabilised by π-σ mixing. This stabilisation increases with increasing number of bridging hydrogen atoms. The order of stability of the individual structures is decided by optimising the preference for lower coordination at aluminium, a higher coordination at boron and more bridging hydrogen atoms between BAl bonds. The relative stabilisation energy (RSE) for the minimum energy structures of BAl2Hnm that contain π-delocalisation are compared with the corresponding homocyclic aluminium and boron analogues.

Item Type:Article
Source:Copyright of this article belongs to John Wiley and Sons, Inc.
Keywords:Ab Initio Calculations; Aluminum; Boron; Bridging Hydrogen; Protonation
ID Code:13620
Deposited On:12 Nov 2010 15:14
Last Modified:04 Jun 2011 04:47

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