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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 111, 2013 - Issue 16-17: In Honour of Professor Kutzelnigg
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Invited Article

Does the metal–metal sextuple bond exist in the bimetallic sandwich compounds Cr2(C6H6)2, Mo2(C6H6)2, and W2(C6H6)2?

Zhi Sun College of Life Science and Bioengineering, Beijing University of Technology, Beijing, 100124, China
,
Henry F. Schaefer III Center for Computational Quantum Chemistry, University of Georgia, Athens, Georgia, 30602, USA
,
Yaoming Xie Center for Computational Quantum Chemistry, University of Georgia, Athens, Georgia, 30602, USA
,
Yongdong Liu College of Life Science and Bioengineering, Beijing University of Technology, Beijing, 100124, China
&
Rugang Zhong College of Life Science and Bioengineering, Beijing University of Technology, Beijing, 100124, China
Pages 2523-2535 | Received 18 Feb 2013, Accepted 08 Apr 2013, Published online: 30 May 2013
 
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Abstract

Although evanescent at best, the bare dimers of the elements Cr, Mo, and W have been identified as possible candidates for the sextuple metal–metal bond. The corresponding dibenzene sandwich compounds Cr2(C6H6)2, Mo2(C6H6)2, and W2(C6H6)2, satisfy the ‘18-Electron Rule’, and might achieve high-order metal–metal bonds and longer lifetimes at the same time. Twenty-two different DFT methods have been used to evaluate this possibility. Based on the present Wiberg bond index and molecular orbital analyses, however, only quadruple metal–metal bonds are predicted for the electronic ground states of Cr2(C6H6)2, Mo2(C6H6)2, and W2(C6H6)2, rather than the sextuple or even quintuple bonds, for both singlet and triplet electronic states. It is possible to force the hypothesised D 6h sextuple bond electron configuration, but the resulting energy is 39 kcal/mol above the D 2h quadruple bond structure for Cr2(C6H6)2. However, the constrained sextuple bond structure for Mo2(C6H6)2 lies 19 kcal/mol above the MoMo singlet. For W2(C6H6)2 the sextuple bond structure is predicted to lie only 3 kcal/mol above the WW structure. Thus the answer to the question raised in our title is ‘almost’ for the tungsten–sextuple bond.

Acknowledgements

This research was supported by the U. S. National Science Foundation (grant number CHE-1054286), National Natural Science Foundation of China (No. 20903006), and the Beijing Natural Science Foundation (No. 2092008).

Special Issue of Molecular Physics in Honor of Professor Werner Kutzelnigg.

Notes

aRE are energies relative to the singlet D 2h conformer results in Table .

aRE are energies relative to the singlet D 2h conformer results in Table .

aRelative energies with respect to the singlet D 2h conformer in Table .

aEnergies are relative to the energies of the singlet D 2h conformer (Table ).

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