Valentin, Cristiana Di Freccero, Mauro Gandolfi, Remo Rastelli, Augusto Concerted vs Stepwise Mechanism in 1,3-Dipolar Cycloaddition of Nitrone to Ethene, Cyclobutadiene, and Benzocyclobutadiene. A Computational Study The problem of competition between concerted and stepwise diradical mechanisms in 1,3-dipolar cycloadditions was addressed by studying the reaction between nitrone and ethene with DFT (R(U)B3LYP/6-31G*) and post HF methods. According to calculations this reaction should take place via the concerted cycloaddition path. The stepwise process is a viable but not competitive alternative. The R(U)B3LYP/6-31G* study was extended to the reaction of the same 1,3-dipole with cyclobutadiene and benzocyclobutadiene. The very reactive antiaromatic cyclobutadiene has an electronic structure that is particularly disposed to promote stepwise diradical pathways. Calculations suggest that its reaction with nitrone represents a borderline case in which the stepwise process can compete with the concerted one on similar footing. Attenuation of the antiaromatic character of the dipolarophile, i.e., on passing from cyclobutadiene to benzocyclobutadiene, causes the concerted 1,3-dipolar cycloaddition to become once again prevalent over the two-step path. Thus, our results suggest that, in 1,3-dipolar cycloadditions that involve normal dipolarophiles, the concerted path (Huisgen's mechanism) should clearly overwhelm its stepwise diradical (Firestone's mechanism) counterpart. diradical pathways;Computational Study;reactive antiaromatic cyclobutadiene;antiaromatic character;Concerted vs Stepwise Mechanism;dipolar;benzocyclobutadiene;cycloaddition path;dipolarophile;DFT;nitrone;post HF methods;diradical mechanisms 2000-08-23
    https://acs.figshare.com/articles/journal_contribution/Concerted_vs_Stepwise_Mechanism_in_1_3-Dipolar_Cycloaddition_of_Nitrone_to_Ethene_Cyclobutadiene_and_Benzocyclobutadiene_A_Computational_Study/3685770
10.1021/jo000569i.s001