The energy of the rotational barriers and electronic structure of the transition state in substituted ethylenes are discussed in the light of the results obtained from different theoretical MO ab initio approaches. The 6-31G* basis set at Hartree-Fock (HF) level and with second-order Moller-Plesset perturbation theory (MP2) was employed, critical points were localized through Full geometry relaxation and characterized by vibrational analysis. A multiconfigurational approach (MCSCF) with different active spaces was also employed. For alkenes the correct rotational transition state is obtained only from the MCSCF approach, whereas for push-pull olefins the HF approach with correlation corrections at MP2 level provides correct answers for the internal rotation around C(sp(2))-C(sp(2)) bonds. The choice is more critical when only acceptor or donor groups are present, especially when change of hybridization occurs at the atoms at the edges of the C-C bond in the critical points. (C) 2000 Published by Elsevier Science B.V. All rights reserved.
Exocyclic push-pull conjugated compounds. Part 2. The effect of donor and acceptor substituents on the rotational barrier of push-pull ethylenes / Benassi, Rois; Bertarini, C; Kleinpeter, E; Taddei, Ferdinando. - In: JOURNAL OF MOLECULAR STRUCTURE. THEOCHEM. - ISSN 0166-1280. - STAMPA. - 498:1-3(2000), pp. 217-225. [10.1016/S0166-1280(99)00276-6]
Exocyclic push-pull conjugated compounds. Part 2. The effect of donor and acceptor substituents on the rotational barrier of push-pull ethylenes
BENASSI, Rois;TADDEI, Ferdinando
2000
Abstract
The energy of the rotational barriers and electronic structure of the transition state in substituted ethylenes are discussed in the light of the results obtained from different theoretical MO ab initio approaches. The 6-31G* basis set at Hartree-Fock (HF) level and with second-order Moller-Plesset perturbation theory (MP2) was employed, critical points were localized through Full geometry relaxation and characterized by vibrational analysis. A multiconfigurational approach (MCSCF) with different active spaces was also employed. For alkenes the correct rotational transition state is obtained only from the MCSCF approach, whereas for push-pull olefins the HF approach with correlation corrections at MP2 level provides correct answers for the internal rotation around C(sp(2))-C(sp(2)) bonds. The choice is more critical when only acceptor or donor groups are present, especially when change of hybridization occurs at the atoms at the edges of the C-C bond in the critical points. (C) 2000 Published by Elsevier Science B.V. All rights reserved.
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