Sextuple bond

From Wikipedia, the free encyclopedia

A sextuple bond is a type of covalent bond involving 12 bonding electrons. The only known molecules with true sextuple bonds (order 6) are diatomic Mo₂ and W₂, in the gaseous phase at very low temperatures. Although diatomic Cr₂ and U₂ have formal structures with twelve-electron bonds, their effective bond orders (derived from quantum chemistry calculations) are less than 5 (quintuple bond). There is strong evidence to believe that no two elements in the periodic table can form a bond with greater order than 6.^[1]

Mo₂ can be observed in the gas phase at low temperatures (7K) by a laser evaporation technique using molybdenum sheet with for instance near infrared spectroscopy or UV spectroscopy.^[2] Like dichromium, a singlet state is expected from dimolybdenum.^[3] Higher bond order is reflected in shorter bond length of 1.94 Å.

[edit] References

v • d • e Chemical bonds "Strong" Covalent bonds & Antibonding Sigma bonds: 3c-2e (bent bond) · 3c-4e (Hydrogen bond, Dihydrogen bond, Agostic interaction) · 4c-2e Pi bonds: π backbonding · Conjugation · Hyperconjugation · Aromaticity · Metal aromaticity Delta bond: Quadruple bond · Quintuple bond · Sextuple bond Coordinate covalent bond · Hapticity Ionic bonds Cation-pi interaction · Salt bridge Metallic bonds - "Weak" Hydrogen bond Dihydrogen bond · Dihydrogen complex · Low-barrier hydrogen bond · Symmetric hydrogen bond · Hydrophile Other noncovalent van der Waals force · Mechanical bond · Halogen bond · Aurophilicity · Intercalation · Stacking · Entropic force · Chemical polarity other Disulfide bond · Peptide bond · Phosphodiester bond Note: the weakest strong bonds are not necessarily stronger than the strongest weak bonds