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Why is Si<sub>2</sub>H<sub>2</sub> Not Linear? An Intrinsic Quasi-Atomic Bonding Analysis

Emilie B. Guidez, Mark S. Gordon, Klaus Ruedenberg

2020Journal of the American Chemical Society33 citationsDOI

Abstract

The molecular energy of Si2H2 geometric structures increases in the order dibridged < trans-bent < linear, in contrast to acetylene, C2H2, for which the linear structure is the global minimum. In this study, the intra-atomic (antibonding) and bonding contributions to the total molecular energy of these valence isoelectronic molecules are computed by expressing the density matrices of the full valence space multiconfiguration self-consistent field wave function in terms of quasi-atomic orbitals. The analysis shows that the intra-atomic contributions to the molecular energy become less favorable in the order dibridged → trans-bent → linear for both C2H2 and Si2H2. By contrast, the inter-atomic bonding contributions become energetically more favorable in that order for both C2H2 and Si2H2. The two systems differ as follows. For Si2H2, the antibonding intra-atomic energy changes that occur when the dibridged molecule reconstructs into the trans-bent and linear structures prevail over the interatomic interactions that induce bond formation. In contrast, for C2H2, the interatomic interactions that create bonds prevail over the intra-atomic energy changes that occur when the dibridged molecule reconstructs into the trans-bent and linear structures. The intra-atomic energy changes that occur in these systems are related to the hybridization of the heavy atoms in an analogous manner to the hybridization of C in CH4 from (2s)2(2p)2 to sp3 hybrid orbitals.

Topics & Concepts

Antibonding molecular orbitalChemistryBent molecular geometryLinear molecular geometryAtomic physicsAtomic orbitalMolecular orbitalValence (chemistry)MoleculeLocalized molecular orbitalsAcetyleneValence bond theoryMolecular physicsPhysicsElectronQuantum mechanicsOrganic chemistrySynthesis and characterization of novel inorganic/organometallic compoundsOrganoboron and organosilicon chemistryAdvanced Chemical Physics Studies
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