Litcius/Paper detail

Observation of Four-Fold Boron–Metal Bonds in RhB(BO<sup>–</sup>) and RhB

Ling Fung Cheung, Teng‐Teng Chen, G. Stephen Kocheril, Weijia Chen, Joseph Czekner, Lai‐Sheng Wang

2020The Journal of Physical Chemistry Letters63 citationsDOI

Abstract

The maximum bond order between two main-group atoms was known to be three. However, it has been suggested recently that there is quadruple bonding in C2 and analogous eight-valence electron species. While the quadruple bond in C2 has aroused some debates, an interesting question is: are main-group elements capable of forming quadruple bonds? Here we use photoelectron spectroscopy and computational chemistry to probe the electronic structure and chemical bonding in RhB2O– and RhB– and show that the boron atom engages in quadruple bonding with rhodium in RhB(BO)− and neutral RhB. The quadruple bonds consist of two π-bonds formed between the Rh 4dxz/4dyz and B 2px/2py orbitals and two σ-bonds between the Rh 4dz2 and B 2s/2pz orbitals. To confirm the quadruple bond in RhB, we also investigate the linear Rh≡B–H+ species and find a triple bond between Rh and B, which has a longer bond length, lower stretching frequency, and smaller bond dissociation energy in comparison with that of the Rh≣B quadruple bond in RhB.

Topics & Concepts

Quadruple bondChemistryThree-center two-electron bondCrystallographyChemical bondBond orderElectron deficiencyBoronSingle bondBond lengthRhodiumAtom (system on chip)Pi bondAtomic orbitalValence (chemistry)Group (periodic table)ElectronCrystal structurePhysicsEmbedded systemQuantum mechanicsCatalysisOrganic chemistryBiochemistryComputer scienceBoron and Carbon Nanomaterials ResearchInorganic Chemistry and MaterialsRare-earth and actinide compounds