The usefulness of various quantum chemical algorithms (semiempirical, HF, DFT) for predicting the energy and geometry of transition states of polar pseudocyclic processes was analyzed using the example of a model cycloaddition process between (Z)-C,N-diphenylnitrone and (E)-2-phenyl-1-nitroethene. These studies clearly recommend the ωB97XD functional in 6-311+G(d) basis set as the relatively most precise tool for studying the mechanisms of polar pseudocyclic processes.
Growing Science » Tags cloud » Secondary kinetic isotope effects
📚 Highly Cited Articles
Journals
1. 
Application of DFT models for the prediction of geometries and energies of the transition states in [4+2]-π -electron cycloadditions Pages 169-174
Download PDF
Authors: Adrianna Fałowska, Martyna Ząbkowska, Karol Sambora, Karolina Kula, Agnieszka Łapczuk, Radomir Jasiński
Keywords: Kinetics, Eyring parameters, Secondary kinetic isotope effects, DFT
Abstract:
Journal: CCL | Year: 2026 | Volume: 15 | Issue: 1 | Views: 134 | Reviews: 0