Assessing the accuracy of a QM/MM//MD combined protocol to compute spectromagnetic properties of polyfunctional nitroxides in solution

Modeling EPR parameters of nitrogen containing conjugated radical cations

DFT investigation on conjugated radical cations containing¹⁴N nucleus to obtain accurate isotropic hyperfine coupling constants.

ESR study of the spin adducts of three analogues of DEPMPO substituted at C4or C3

Average geometries of the nitroxide adducts of various radicals with three substituted DEPMPO nitrones allow the prediction of a correlation between the substitution and the trapping properties.

Extension of the AMBER Force Field for Nitroxide Radicals and Combined QM/MM/PCM Approach to the Accurate Determination of EPR Parameters of DMPO-H in Solution

A computational strategy that combines both time-dependent and time-independent approaches is exploited to accurately model molecular dynamics and solvent effects on the isotropic hyperfine coupling constants of the DMPO-H nitroxide. Our recent general force field for nitroxides derived from AMBER ff99SB is further extended to systems involving hydrogen atoms in β-positions with respect to NO-moiety. The resulting force-field has been employed in a series of classical molecular dynamics simulations, comparing the computed EPR parameters from selected molecular configurations to the corresponding experimental data in different solvents. The effect of vibrational averaging on the spectroscopic parameters is also taken into account, by second-order vibrational perturbation theory involving semidiagonal third energy derivatives together first and second property derivatives.