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RESEARCH ARTICLE
Contents Vol 58(10)

Increased-Valence or Electronic Hypervalence for a Diatomic One-Electron Bond

Richard D. Harcourt A
+ Author Affiliations
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A School of Chemistry, University of Melbourne, Melbourne VIC 3010, Australia. Email: r.harcourt@unimelb.edu.au

Australian Journal of Chemistry 58(10) 753-755 https://doi.org/10.1071/CH05180
Submitted: 1 August 2005  Accepted: 13 September 2005   Published: 8 November 2005

Abstract

With a and b as overlapping atomic orbitals to form the A–B bonding molecular orbital ψab = a + kb, it is deduced that for k ≠ 0, 1, or ∞, either the A atom or the B atom in the one-electron bond valence bond structure (A · B) exhibits increased-valence or electronic hypervalence, namely its valence exceeds unity. The result is illustrated using the results of STO-6G valence bond calculations for the one-electron bond of LiH+ and an excited state for H2CN. Valencies for the ground-states of H2+, H2, and H2 are also considered.


Acknowledgments

I thank Dr Walter Roso for his ab initio VB program, Drs Frances Skrezenek and Harry Quiney for VB program installations, and Dr Jonathan White for providing a work station on which the STO-6G VB calculations were performed.


References


[1]   R. D. Harcourt, J. Mol. Struct. (Theochem) 2005, 716,  99.
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          See ref. [4] for recent applications.
         
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* The atomic formal charges have not been indicated in VB structures 13 and 811. The Va and VA of the present paper correspond to the Vay and Va of ref. [1] which includes a third atomic centre Y with an additional electron.

For example, those of ref. [9], in which Re = 4.321 a.u. Eight more recent estimates for Re range between 4.08 and 4.15 a.u.[10]