For this work, we have selected two reactions for the formation of (2,2)-dichloro (ethyl) Arylphosphine and bis (2,2)-dichloro(ethyl)arylphosphine compounds by hydrophosphination. Global and local reactivity parameter...For this work, we have selected two reactions for the formation of (2,2)-dichloro (ethyl) Arylphosphine and bis (2,2)-dichloro(ethyl)arylphosphine compounds by hydrophosphination. Global and local reactivity parameters, thermodynamic parameters of reactions, Transition states, the Fukui function, the local softness, the local electrophility index, and nucleophility index, Natural population analyses (NPA) and Mulliken (MK) were calculated with DFT method at B3LYP/6-311+G(d, p) level. The analysis of potential energy surfaces and the nature of the reaction mechanism have been determined. The various results obtained revealed that the addition of Arylphosphine is regiospecific. The phenylphosphine is more stable than the thiophenylphosphine. The theoretical results are consistent with experience.展开更多
The original online version of this article (Kouadio Valery Bohoussou1, Anoubilé Benié2, Mamadou Guy-Richard Koné1, Affi Baudelaire Kakou2, Kafoumba Bamba1, Nahossé Ziao1) Theoretical Study of the ...The original online version of this article (Kouadio Valery Bohoussou1, Anoubilé Benié2, Mamadou Guy-Richard Koné1, Affi Baudelaire Kakou2, Kafoumba Bamba1, Nahossé Ziao1) Theoretical Study of the Reaction of (2, 2)-Dichloro (Ethyl) Arylphosphine with Bis (2, 2)-Dichloro (Ethyl) Arylphosphine by Hydrophosphination Regio selective by the DFT Method. Computational Chemistry 5 (2017) 113-128. DOI: 10.4236/cc.2017.53010) unfortunately contains a mistake. The author wishes to correct the errors from Table 3 to Table 4, on pages 121 and the beginning of page 122.展开更多
文摘For this work, we have selected two reactions for the formation of (2,2)-dichloro (ethyl) Arylphosphine and bis (2,2)-dichloro(ethyl)arylphosphine compounds by hydrophosphination. Global and local reactivity parameters, thermodynamic parameters of reactions, Transition states, the Fukui function, the local softness, the local electrophility index, and nucleophility index, Natural population analyses (NPA) and Mulliken (MK) were calculated with DFT method at B3LYP/6-311+G(d, p) level. The analysis of potential energy surfaces and the nature of the reaction mechanism have been determined. The various results obtained revealed that the addition of Arylphosphine is regiospecific. The phenylphosphine is more stable than the thiophenylphosphine. The theoretical results are consistent with experience.
文摘The original online version of this article (Kouadio Valery Bohoussou1, Anoubilé Benié2, Mamadou Guy-Richard Koné1, Affi Baudelaire Kakou2, Kafoumba Bamba1, Nahossé Ziao1) Theoretical Study of the Reaction of (2, 2)-Dichloro (Ethyl) Arylphosphine with Bis (2, 2)-Dichloro (Ethyl) Arylphosphine by Hydrophosphination Regio selective by the DFT Method. Computational Chemistry 5 (2017) 113-128. DOI: 10.4236/cc.2017.53010) unfortunately contains a mistake. The author wishes to correct the errors from Table 3 to Table 4, on pages 121 and the beginning of page 122.