The [3 + 2] cycloaddition reactions (32CA) between N-benzyl fluoro nitrone and electron-deficient dipolarophiles alkynes have been studied using molecular electron density theory at the B3LYP-D3/6-31G(d) level. The findings indicate that, in these 32CA reactions, a one-step mechanism is in play with asynchronous transition states. The topological analyses of these transition states are consistent with the presence of non-covalent interactions at the bonding regions between atoms. The analysis of the energy profile in gas phase and in the presence of solvents indicates a preference for a specific site addition over the others. Parr functions were thus used to justify such regioselectivity. In addition, we show that solvents do not modify the regioselectivity achieved, but it increases the activation energies and reduces the exothermic nature of this 32CA reaction. The present findings are in agreement with the experimental results.
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