Hyperfine coupling tensors of the benzosemiquinone radical anion from Car-Parrinello molecular dynamics. |
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Authors: | James R Asher Martin Kaupp |
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Affiliation: | Institut für Anorganische Chemie, Universit?t Würzburg, Am Hubland, 97074 Würzburg, Germany, Fax: (+49)?931‐888‐7135 |
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Abstract: | Based on Car-Parrinello ab initio molecular dynamics simulations of the benzosemiquinone radical anion in both aqueous solution and the gas phase, density functional calculations provide the currently most refined EPR hyperfine coupling (HFC) tensors of semiquinone nuclei and solvent protons. For snapshots taken at regular intervals from the molecular dynamics trajectories, cluster models with different criteria for inclusion of water molecules and an additional continuum solvent model are used to analyse the HFCs. These models provide a detailed picture of the effects of dynamics and of different intermolecular interactions on the spin-density distribution and HFC tensors. Comparison with static calculations allows an assessment of the importance of dynamical effects, and of error compensation in static DFT calculations. Solvent proton HFCs depend characteristically on the position relative to the semiquinone radical anion. A point-dipolar model works well for in-plane hydrogen-bonded protons but deviates from the quantum chemical values for out-of-plane hydrogen bonding. |
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Keywords: | density functional calculations EPR spectroscopy hyperfine couplings molecular dynamics semiquinones |
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