참고문헌 (41)

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3. Bloembergen, N.. Comments on ``Proton Relaxation Times in Paramagnetic Solutions''. The Journal of chemical physics, vol.27, no.2, 595-596.

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4. Bloembergen, N., Morgan, L. O.. Proton Relaxation Times in Paramagnetic Solutions. Effects of Electron Spin Relaxation. The Journal of chemical physics, vol.34, no.3, 842-850.

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5. Sharp, Robert R.. Nuclear spin relaxation in paramagnetic solutions. Effects of large zero-field splitting in the electron spin Hamiltonian. The Journal of chemical physics, vol.93, no.10, 6921-6928.

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6. Sharp, Robert R.. Effect of zero field splitting interactions on the paramagnetic relaxation enhancement of nuclear spin relaxation rates in solution. The Journal of chemical physics, vol.98, no.2, 912-921.

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7. Sharp, Robert, Abernathy, Shawn M., Lohr, Lawrence L.. Paramagnetically induced nuclear magnetic resonance relaxation in solutions containing S⩾1 ions: A molecular-frame theoretical and physical model. The Journal of chemical physics, vol.107, no.19, 7620-7629.

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8. NILSSON, T., KOWALEWSKI, J.. Low-field theory of nuclear spin relaxation in paramagnetic low-symmetry complexes for electron spin systems of S = 1, 3/2, 2, 5/2, 3 and 7/2. Molecular physics, vol.98, no.20, 1617-1638.

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9. Wang, Pei-Lein, Lee, Jing-Huei, Huang, Shiou-Mei, Hwang, Lian-Pin. Proton spin relaxation in solutions of the complex tris(acetylacetonato)chromium(III). Journal of magnetic resonance, vol.73, no.2, 277-286.

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10. Morosin, B.. The crystal structure of trisacetylacetonatochromium(III). Acta crystallographica, vol.19, no.1, 131-137.

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11. Singer, L. S.. Paramagnetic Resonance Absorption in Some Cr+3 Complexes. The Journal of chemical physics, vol.23, no.2, 379-388.

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13. Sharp, R., Lohr, L., Miller, J.. Paramagnetic NMR relaxation enhancement: recent advances in theory. Progress in nuclear magnetic resonance spectroscopy, vol.38, no.2, 115-158.

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15. Bertini, I., Galas, O., Luchinat, C., Parigi, G.. A Computer Program for the Calculation of Paramagnetic Enhancements of Nuclear-Relaxation Rates in Slowly Rotating Systems. Journal of magnetic resonance. Series A, vol.113, no.2, 151-158.

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16. Bertini, Ivano, Kowalewski, Jozef, Luchinat, Claudio, Nilsson, Tomas, Parigi, Giacomo. Nuclear spin relaxation in paramagnetic complexes of S=1: Electron spin relaxation effects. The Journal of chemical physics, vol.111, no.13, 5795-5807.

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17. Kruk, Danuta, Nilsson, Tomas, Kowalewski, Jozef. Nuclear spin relaxation in paramagnetic systems with zero-field splitting and arbitrary electron spin. Physical chemistry chemical physics : PCCP, vol.3, no.22, 4907-4917.

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18. Sharp, Robert, Lohr, Lawrence. Thermal relaxation of electron spin motion in a thermal equilibrium ensemble: Relation to paramagnetic nuclear magnetic resonance relaxation. The Journal of chemical physics, vol.115, no.11, 5005-5014.

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20. Abernathy, Shawn M., Sharp, Robert R.. Spin dynamics calculations of electron and nuclear spin relaxation times in paramagnetic solutions. The Journal of chemical physics, vol.106, no.22, 9032-9043.

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21. Miller, J. C., Sharp, R. R.. Paramagnetic NMR Relaxation Enhancement: Spin Dynamics Simulations of the Effect of Zero-Field Splitting Interactions for S = ⁵/₂. The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment & general theory, vol.104, no.21, 4889-4895.

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22. Larsson, Tomas, Westlund, Per-Olof, Kowalewski, Jozef, Koenig, Seymour H.. Nuclear-spin relaxation in paramagnetic complexes in the slow-motion regime for the electron spin: The anisotropic pseudorotation model for S=1 and the interpretation of nuclear magnetic relaxation dispersion results for a low-symmetry Ni(II) complex. The Journal of chemical physics, vol.101, no.2, 1116-1128.

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23. Nilsson, T., Parigi, G., Kowalewski, J.. Experimental NMRD Profiles for Some Low-Symmetry Ni(II) Complexes (S = 1) in Solution and Their Interpretation Using Slow-Motion Theory. The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment & general theory, vol.106, no.18, 4476-4488.

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24. Nilsson, T., Svoboda, J., Westlund, P.-O., Kowalewski, J.. Slow-motion theory of nuclear spin relaxation in paramagnetic complexes (S=1) of arbitrary symmetry. The Journal of chemical physics, vol.109, no.15, 6364-6375.

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25. Nilsson, T, Kowalewski, J. Slow-Motion Theory of Nuclear Spin Relaxation in Paramagnetic Low-Symmetry Complexes: A Generalization to High Electron Spin. Journal of magnetic resonance, vol.146, no.2, 345-358.

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26. Odelius, Michael, Ribbing, Carl, Kowalewski, Jozef. Molecular dynamics simulation of the zero-field splitting fluctuations in aqueous Ni(II). The Journal of chemical physics, vol.103, no.5, 1800-1811.

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27. Odelius, Michael, Ribbing, Carl, Kowalewski, Jozef. Spin dynamics under the Hamiltonian varying with time in discrete steps: Molecular dynamics-based simulation of electron and nuclear spin relaxation in aqueous nickel(II). The Journal of chemical physics, vol.104, no.9, 3181-3188.

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28. Kruk, Danuta, Kowalewski, Jozef. Vibrational motions and nuclear spin relaxation in paramagnetic complexes: Hexaaquonickel(II) as an example. The Journal of chemical physics, vol.116, no.10, 4079-4086.

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29. Doddrell, DM, Bendall, MR, O'Connor, AJ, Pegg, DT. Measurement, employing 1H and 13C spin-lattice relaxation times, of the temperature dependence of the correlation time for rotational reorientation (τR)of diamagnetic transition-metal Bis- and Tris-acetylacetonate complexes. Australian journal of chemistry, vol.30, no.5, 943-.

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30. Sharp, Robert R.. Characteristic properties of the nuclear magnetic resonance-paramagnetic relaxation enhancement arising from integer and half-integer electron spins. The Journal of chemical physics, vol.98, no.4, 2507-2515.

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31. Sharp, Robert R.. Nuclear spin relaxation due to paramagnetic species in solution: Effect of anisotropy in the zero field splitting tensor. The Journal of chemical physics, vol.98, no.8, 6092-6101.

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32. Bovet, Jean-Marc, Sharp, Robert R.. Nuclear magnetic resonance relaxation enhancements produced by paramagnetic solutes: Effects of rhombicity in the zero field splitting tensor with the S=2 spin system as an example. The Journal of chemical physics, vol.99, no.1, 18-26.

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33. Abernathy, S. M., Miller, J. C., Lohr, L. L., Sharp, R. R.. Nuclear magnetic resonance-paramagnetic relaxation enhancements: Influence of spatial quantization of the electron spin when the zero-field splitting energy is larger than the Zeeman energy. The Journal of chemical physics, vol.109, no.10, 4035-4046.

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34. Miller, J.C., Lohr, L.L., Sharp, R.R.. NMR Paramagnetic Relaxation Enhancement: Test of the Controlling Influence of ZFS Rhombicity for S = 1. Journal of magnetic resonance, vol.148, no.2, 267-276.

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35. Bertini, Ivano, Galas, Oleg, Luchinat, Claudio, Messori, Luigi, Parigi, Glacomo. A theoretical analysis of the 1H nuclear magnetic relaxation dispersion profiles of diferric transferrin. The Journal of physical chemistry, vol.99, no.39, 14217-14222.

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36. Gottlieb, Hans P. W., Barfield, Michael, Doddrell, David M.. An electron spin density matrix description of nuclear spin-lattice relaxation in paramagnetic molecules. The Journal of chemical physics, vol.67, no.8, 3785-3794.

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37. Doddrell, David M., Pegg, David T., Bendall, M.Robin, Gottlieb, Hans P.W.. ¹³C spin-relaxation times in some paramagnetic transition-metal acetylacetonate complexes. Importance of ligand-centred relaxation. Chemical physics letters, vol.39, no.1, 65-68.

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38. Kowalewski, Jozef, Laaksonen, Aatto, Nordenskiöld, Lars, Blomberg, Margareta. A nonempirical SCF-MO study of the validity of the Solomon-Bloembergen equation for the hexa-aquonickel (II) ion. The Journal of chemical physics, vol.74, no.5, 2927-2930.

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39. Nordenskiold, Lars, Laaksonen, Aatto, Kowalewski, Jozef. Applicability of the Solomon-Bloembergen equation to the study of paramagnetic transition metal-water complexes. An ab initio SCF-MO study. Journal of the American Chemical Society, vol.104, no.2, 379-382.

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40. Ma, L., Jorgensen, A.-M. M., Sorensen, G. O., Ulstrup, J., Led, J. J.. Elucidation of the Paramagnetic R₁ Relaxation of Heteronuclei and Protons in Cu(II) Plastocyanin from Anabaena variabilis. Journal of the American Chemical Society, vol.122, no.39, 9473-9485.

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41. Wilkens, S. J., Xia, B., Volkman, B. F., Weinhold, F., Markley, J. L., Westler, W. M.. Inadequacies of the Point-Dipole Approximation for Describing Electron−Nuclear Interactions in Paramagnetic Proteins: Hybrid Density Functional Calculations and the Analysis of NMR Relaxation of High-Spin Iron(III) Rubredoxin. The journal of physical chemistry. B, Condensed matter, materials, surfaces, interfaces & biophysical, vol.102, no.42, 8300-8305.

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