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6 - Transition to the solid state

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

The theme of this text, clusters as a bridge to solid-state chemistry, requires that we now consider the geometric and electronic aspects of substances that are solids. In doing so we will focus our attention initially on the nature of the atomic structures inside a bulk material; that is, we will completely ignore the surfaces. Towards the end of this chapter we will reincorporate surfaces into the problem and, in doing so, complete the bridge. The electronic-structure problem presented by periodic structures exhibiting extended bonding has been effectively dealt with in several earlier texts some of which are listed at the end of this chapter. These works go beyond what we need to establish our theme; however, the reader interested in more depth and breadth is referred to them.

Cluster molecules with extended bonding networks

As usual, let us begin with a discussion of geometric ideas relevant to a transition from molecular clusters to the solid state.

Surface vs. core atoms

In the structure of [Al69R18]3− (Figure 2.32) the number of nearest-neighbor Al atoms and bonding parameters changes in going from the outer shell made up of Al–R fragments deeper into the inner shells constructed from Al atoms alone. The internal cluster atoms display coordination numbers and inter-atomic distances more closely associated with bulk elemental Al than single-shell clusters. Is this reasonable? For the single-shell clusters discussed in preceding chapters the requirement for external ligands dominates the cluster stoichiometry/shape relationship.

Type
Chapter
Information
Molecular Clusters
A Bridge to Solid-State Chemistry
, pp. 205 - 256
Publisher: Cambridge University Press
Print publication year: 2007

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References

Hoffmann, R. (1988). Solids and Surfaces: A Chemist's View of Bonding in Extended Structures. New York: VCH.CrossRefGoogle Scholar
Albright, T. A., Burdett, J. K. and Whangbo, M.-H. (1985). Orbital Interactions in Chemistry. New York: Wiley.Google Scholar
Burdett, J. K. (1995). Chemical Bonding in Solids. New York: Oxford.Google Scholar
Dronskowski, R. (2005). Computational Chemistry of Solid State Materials, A Guide for Materials Scientists, Chemists, Physicists and Others. Weinheim: Wiley-VCH.CrossRef
Stout, G. H. and Jensen, L. H. (1968). X-Ray Structure Determination. New York: Macmillan.Google Scholar
Muetterties, E. L., Rhodin, T. N., Band, E., Brucker, C. F. and Pretzer, W. R. (1979). Chem. Rev., 79, 91.CrossRef
Somorjai, G. A. (1981). Chemistry in Two Dimensions: Surfaces. Ithaca, NY: Cornell University Press.Google Scholar
Hoffmann, R. (1988). Solids and Surfaces: A Chemist's View of Bonding in Extended Structures. New York: VCH.CrossRefGoogle Scholar
Albright, T. A., Burdett, J. K. and Whangbo, M.-H. (1985). Orbital Interactions in Chemistry. New York: Wiley.Google Scholar
Burdett, J. K. (1995). Chemical Bonding in Solids. New York: Oxford.Google Scholar
Dronskowski, R. (2005). Computational Chemistry of Solid State Materials, A Guide for Materials Scientists, Chemists, Physicists and Others. Weinheim: Wiley-VCH.CrossRef
Stout, G. H. and Jensen, L. H. (1968). X-Ray Structure Determination. New York: Macmillan.Google Scholar
Muetterties, E. L., Rhodin, T. N., Band, E., Brucker, C. F. and Pretzer, W. R. (1979). Chem. Rev., 79, 91.CrossRef
Somorjai, G. A. (1981). Chemistry in Two Dimensions: Surfaces. Ithaca, NY: Cornell University Press.Google Scholar

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