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1 - Introduction

Published online by Cambridge University Press:  19 February 2010

Thomas Fehlner
Affiliation:
University of Notre Dame, Indiana
Jean-Francois Halet
Affiliation:
Université de Rennes I, France
Jean-Yves Saillard
Affiliation:
Université de Rennes I, France
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Summary

A modern chemist has access to good computational methods that generate numerically useful information on molecules, e.g., energy, geometry and vibrational frequencies. But we also have a collection of models based on orbital ideas incorporating concepts of symmetry, overlap and electronegativity. In this text we focus on the latter as these ideas have been a huge aid in understanding the connections between stoichiometry, geometry and electronic structure. The connections can be as simple as an electron count yielding user-friendly “rules.” Our problem here, the electronic structure of a cluster or a more extended structure of the type encountered in solid-state chemistry, requires the application of models beyond those reviewed in the Appendix. Models are like tools – they permit us to disassemble and assemble the electronic structure of molecules. For each problem we choose a model that will accomplish the task with minimum effort and maximum understanding. Just as one would not use a screwdriver to remove a hex nut, so too we cannot use highly localized models to usefully describe the electronic structures of many clusters and extended bonding systems. We must use a method that is capable of producing a sensible solution as well as one that is sufficiently versatile to treat both the bonding in small clusters and bulk materials.

The proven method we will use is one that generates solutions based on the orbitals and electrons that the atoms or molecular fragments bring to the problem.

Type
Chapter
Information
Molecular Clusters
A Bridge to Solid-State Chemistry
, pp. 1 - 32
Publisher: Cambridge University Press
Print publication year: 2007

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References

Albright, T. A., Burdett, J. K. and Whangbo, M.-H. (1985). Orbital Interactions in Chemistry. New York: Wiley.Google Scholar
Hoffmann, R. (1981). Science, 211, 995.CrossRef
Cotton, F. A. and Walton, R. A. (1993). Multiple Bonds Between Metal Atoms. Oxford: Oxford University Press.Google Scholar
Lipscomb, W. N. (1963). Boron Hydrides. New York: Benjamin.Google Scholar
Muetterties, E. L. (Ed.) (1975). Boron Hydride Chemistry. New York: Academic Press.Google Scholar
Moezzi, A., Olmstead, M. M. and Power, P. P. (1992). J. Am. Chem. Soc., 114, 2715.CrossRef
Albright, T. A., Burdett, J. K. and Whangbo, M.-H. (1985). Orbital Interactions in Chemistry. New York: Wiley.Google Scholar
Hoffmann, R. (1981). Science, 211, 995.CrossRef
Cotton, F. A. and Walton, R. A. (1993). Multiple Bonds Between Metal Atoms. Oxford: Oxford University Press.Google Scholar
Lipscomb, W. N. (1963). Boron Hydrides. New York: Benjamin.Google Scholar
Muetterties, E. L. (Ed.) (1975). Boron Hydride Chemistry. New York: Academic Press.Google Scholar
Moezzi, A., Olmstead, M. M. and Power, P. P. (1992). J. Am. Chem. Soc., 114, 2715.CrossRef

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