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Diabatic Valence-Hole States in the C<sub>2</sub> Molecule: “Putting Humpty Dumpty Together Again”

Jun Jiang, Hong‐Zhou Ye, Klaas Nauta, Troy Van Voorhis, Timothy W. Schmidt, Robert W. Field

2022The Journal of Physical Chemistry A14 citationsDOIOpen Access PDF

Abstract

Despite the long history of spectroscopic studies of the C 2 molecule, fundamental questions about its chemical bonding are still being hotly debated. The complex electronic structure of C 2 is a consequence of its dense manifold of near-degenerate, low-lying electronic states. A global multi-state diabatic model is proposed here to disentangle the numerous configuration interactions that occur within four symmetry manifolds of excited states of C 2 ( 1 Π g, 3 Π g, 1 Σ u +, and 3 Σ u + ). The key concept of our model is the existence of two “valence-hole” configurations, for 1,3 Π g states and for 1,3 Σ u + states, that are derived from 3σ g ← 2σ u electron promotion. The lowest-energy state from each of the four C 2 symmetry species is dominated by this type of valence-hole configuration at its equilibrium internuclear separation. As a result of their large binding energy (nominal bond order of 3) and correlation with the 2s 2 2p 2 + 2s2p 3 separated-atom configurations, the presence of these valence-hole configurations has a profound impact on the global electronic structure and unimolecular dynamics of C 2 .

Topics & Concepts

DiabaticValence (chemistry)ChemistryDegenerate energy levelsAtomic physicsExcited stateElectronic structureMoleculeGeneralized valence bondValence bond theoryPhysicsComputational chemistryQuantum mechanicsMolecular orbitalAdiabatic processOrganic chemistryAdvanced Chemical Physics StudiesPorphyrin and Phthalocyanine ChemistryFullerene Chemistry and Applications