We have investigated the structure and nuclear magnetic resonance (NMR) spectroscopic properties of some dihydrogen endofullerene nitroxides by means of density-functional theory (DFT) calculations. Quantum versus classical roto-translational dynamics of H2 have been characterized and compared. Geometrical parameters and hyperfine couplings calculated by DFT have been input to the Solomon– Bloembergen equations to predict the enhancement of the NMR longitudinal relaxation of H2 due to coupling with the unpaired electron. Estimating the rotational correlation time via computed molecular volumes leads to a fair agreement with experiment for the simplest derivative; the estimate is considerably improved by recourse to the calculation of the diffusion tensor. For the othermore flexible congeners, the agreement is less good, which may be due to an insufficient sampling of the conformational space. In all cases, relaxation by Fermi contact and Curie mechanisms is predicted to be negligible.
Predicting the paramagnet-enhanced NMR relaxation of H2 encapsulated in endofullerene nitroxides by density-functional theory calculations
RASTRELLI, FEDERICO;FREZZATO, DIEGO;BAGNO, ALESSANDRO
2013
Abstract
We have investigated the structure and nuclear magnetic resonance (NMR) spectroscopic properties of some dihydrogen endofullerene nitroxides by means of density-functional theory (DFT) calculations. Quantum versus classical roto-translational dynamics of H2 have been characterized and compared. Geometrical parameters and hyperfine couplings calculated by DFT have been input to the Solomon– Bloembergen equations to predict the enhancement of the NMR longitudinal relaxation of H2 due to coupling with the unpaired electron. Estimating the rotational correlation time via computed molecular volumes leads to a fair agreement with experiment for the simplest derivative; the estimate is considerably improved by recourse to the calculation of the diffusion tensor. For the othermore flexible congeners, the agreement is less good, which may be due to an insufficient sampling of the conformational space. In all cases, relaxation by Fermi contact and Curie mechanisms is predicted to be negligible.Pubblicazioni consigliate
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