N. Vogt, Maxim A. Abaev, A. N. Rykov
Jun 14, 2011
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Journal
Journal of Molecular Structure
Abstract
Abstract The molecular structure of succinic acid has been investigated by the gas-phase electron diffraction (GED) method for the first time. According to predictions of MP2/cc-pVTZ calculations, the molecule has 18 stable conformers with the C C C C chain in the gauche ( G ) or anti ( A ) configuration, and four of them, I ( G ), II ( A ), III ( G ) and IV ( A ) belonging to the C 2 , C 2h , C 1 and C 1 point groups, respectively, with relative energies ΔE ZPE within 2.2 kcal/mol can be present at the experimental temperature of 445 K in noticeable amounts. The ratio of the conformers I:II:III:IV = 45(15):20(15):10(assumed):25(15) (in %) has been determined in the GED analysis guided by theoretical predictions. To take into account vibrational effects, the corrections Δ( r e − r a ) to the experimental r a bond lengths were calculated from the MP2/cc-pVTZ quadratic and cubic force constants. The obtained equilibrium structural parameters of the dominant conformer I are the following (bond lengths in A, angles in degrees): r e (C sp3 C sp3 ) = 1.508(3), r e (C sp3 C sp2 ) = 1.499(2), r e (C O) = 1.343(2), r e (C O) = 1.202(1), e (C C C) = 111.8(4), e (C C O) = 112.0(4), e (O C O) = 123.0(1), τ (C C C C) = 69.9(11). Yielding the best agreement with the GED structure, the MP2/cc-pVQZ approximation overestimates the C O and C O bond lengths by ca. 0.005(2) A.