Simulation and analysis of 13C spin-rotation nuclear magnetic resonance relaxation rates of methyl groups

Autores: Alejandro Hernández-Tanguma, ArmandoAriza-Castolo

Revista: Journal of Molecular Liquids

https://doi.org/10.1016/j.molliq.2024.124391

Resumen: This work analyzes the nuclear spin–rotation contribution to the nuclear magnetic resonance relaxation of methyl groups from 10 rigid compounds (eight benzene derivatives with one, two, or three methyl groups and two bicyclic molecules) with internal rotation axes not aligned to the smallest molecular moment of inertia via molecular dynamics simulation and ab initio calculation. The molecular dynamics simulation and ab initio calculation of nuclear spin-rotation coupling constants reproduce the experimental behavior in selected systems. The presented methodology can help in the analysis and interpretation of experimental relaxation data.