CHAPTER 2 – PRINCIPLES OF NUCLEAR MAGNETIC RESONANCE
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[1] C. Maclean,et al. Chapter 4 Relaxation processes in systems of two non-identical spins , 1967 .
[2] B. Sykes,et al. A nuclear magnetic resonance study of the inhibition of lysozyme by N-acetyl-D-glucosamine and di-N-acetyl-D-glucosamine. , 1969, The Journal of biological chemistry.
[3] G. H. Reed,et al. Note on the Distinction between Transverse and Longitudinal Electron Relaxation Times Obtained from Nuclear Relaxation Studies , 1970 .
[4] T. E. Burke,et al. Nuclear spin relaxation in the presence of internal rotation II. Nuclear-spin-internal rotational coupling in benzotrifluoride and hexafluorobutyne-2 , 1970 .
[5] I. Solomon. Relaxation Processes in a System of Two Spins , 1955 .
[6] R. Norberg,et al. FREE-INDUCTION DECAYS IN SOLIDS , 1957 .
[7] R. Stewart,et al. Studies of chemical exchange by nuclear magnetic resonance methods , 1968 .
[8] D. Doddrell,et al. Natural Abundance Carbon‐13 Partially Relaxed Fourier Transform Nuclear Magnetic Resonance Spectra of Complex Molecules , 1971 .
[9] Nicolaas Bloembergen,et al. Proton Relaxation Times in Paramagnetic Solutions. Effects of Electron Spin Relaxation , 1961 .
[10] John S. Waugh,et al. Measurement of Spin Relaxation in Complex Systems , 1968 .
[11] H. S. Gutowsky,et al. NUCLEAR MAGNETIC SPIN-LATTICE RELAXATION BY SPIN-ROTATIONAL INTERACTIONS , 1961 .
[12] R. Richards,et al. Nuclear spin-lattice relaxation in some aromatic compounds , 1966 .
[13] J. Baldeschwieler,et al. Halide ions as chemical probes for NMR studies of proteins. , 1966, Proceedings of the National Academy of Sciences of the United States of America.
[14] R. Freeman,et al. High‐Resolution Nuclear Magnetic Resonance by Fourier Transformation , 1970 .
[15] K. Wirtz,et al. Molekulare Theorie der Mikroreibung , 1953 .
[16] Charles S. Johnson,et al. On the Mechanism of Nuclear Relaxation in Gaseous and Liquid CHF3 , 1961 .
[17] E. Stejskal,et al. Analysis of the Effect of Chemical Exchange on a High-resolution N.m.r. Spin-Spin Doublet: Application to N-Methylacetamide1,2 , 1960 .
[18] D. C. Douglass,et al. Diffusion in Paraffin Hydrocarbons , 1958 .
[19] Sunney I. Chan,et al. Nuclear‐Spin—Internal‐Rotation Coupling , 1967 .
[20] J. Eisinger,et al. Transition Metal Binding in DNA Solutions , 1962 .
[21] F. Anet,et al. Nuclear Magnetic Resonance Spectral Assignments from Nuclear Overhauser Effects1 , 1965 .
[22] R. R. Ernst,et al. Application of Fourier Transform Spectroscopy to Magnetic Resonance , 1966 .
[23] J. P. Davis,et al. Determination of molecular geometry by quantitative application of the nuclear Overhauser effect , 1970 .
[24] H. S. Gutowsky,et al. Dissociation, Chemical Exchange, and the Proton Magnetic Resonance in Some Aqueous Electrolytes , 1953 .
[25] S. Forsén,et al. High resolution nuclear magnetic double and multiple resonance , 1966 .
[26] H. Mcconnell. Reaction Rates by Nuclear Magnetic Resonance , 1958 .
[27] S. Meiboom,et al. Modified Spin‐Echo Method for Measuring Nuclear Relaxation Times , 1958 .
[28] K. Gillen,et al. NMR Studies of the Rotational Diffusion of Symmetric Top Molecules in Liquids , 1970 .
[29] H. S. Gutowsky,et al. Spin—Echo NMR Studies of Chemical Exchange. I. Some General Aspects , 1964 .
[30] Nicolaas Bloembergen,et al. Proton Relaxation Times in Paramagnetic Solutions , 1957 .
[31] S. H. Koenig. Note on the Distinction between Transverse and Longitudinal Relaxation Times Obtained from Nuclear Relaxation Studies , 1972 .
[32] P. S. Hubbard. Theory of Nuclear Magnetic Relaxation by Spin-Rotational Interactions in Liquids , 1963 .
[33] H. S. Gutowsky,et al. Rate Processes and Nuclear Magnetic Resonance Spectra. II. Hindered Internal Rotation of Amides , 1956 .
[34] E. B. Baker. Two Synthesizer Nuclear Spin Decoupling; INDOR Spectra of C13F3COOH and CF3C13OOH, N14H4+, and (CH3)4Si29 , 1962 .
[35] S. Meiboom,et al. Rates and Mechanisms of Protolysis of Methylammonium Ion in Aqueous Solution Studied by Proton Magnetic Resonance , 1957 .
[36] H. Mcconnell,et al. Anisotropic Chemical Shielding and Nuclear Magnetic Relaxation in Liquids , 1956 .
[37] S. Meiboom,et al. Proton Relaxation in Dilute Solutions of Cobalt(II) and Nickel(II) Ions in Methanol and the Rate of Methanol Exchange of the Solvation Sphere , 1964 .
[38] D. Wallach. Effect of Internal Rotation on Angular Correlation Functions , 1967 .
[39] J. Dadok,et al. Negative nuclear Overhauser effects as probes of macromolecular structure. , 1972, Journal of the American Chemical Society.
[40] E. J. Wells,et al. Theory of Chemical Exchange Effects in Magnetic Resonance , 1965 .
[41] D. C. Douglass,et al. Diffusion in binary solutions , 1967 .
[42] N. E. Hill. The Dielectric Relaxation of Polar Molecules in Solution , 1954 .
[43] H. Hertz. Chapter 5 Microdynamic behaviour of liquids as studied by NMR relaxation times , 1967 .
[44] H. S. Gutowsky,et al. Nuclear Magnetic Spin-Lattice Relaxation in Liquids , 1956 .
[45] T. James,et al. Sodium-23 nuclear magnetic resonance studies of sodium aminocarboxylic acid complexes , 1969 .
[46] John S. Leigh,et al. A new method for measuring longitudinal relaxation times , 1973 .
[47] Charles S. Johnson. Chemical Rate Processes and Magnetic Resonance , 1965 .
[48] Donald E. O'Reilly,et al. Self‐Diffusion Coefficients and Rotational Correlation Times in Polar Liquids , 1974 .
[49] J. G. Powles,et al. Nuclear spin-lattice relaxation, including the spin-rotation interaction, in liquid benzene and several benzene derivatives up to the critical temperature , 1965 .
[50] B. Sykes,et al. Effect of internal rotation on nuclear magnetic relaxation times for macromolecules. , 1972, Biochemistry.
[51] T. J. Swift,et al. NMR‐Relaxation Mechanisms of O17 in Aqueous Solutions of Paramagnetic Cations and the Lifetime of Water Molecules in the First Coordination Sphere , 1962 .
[52] R. Kurland,et al. Inversion Barrier in Singly Bridged Biphenyls , 1964 .
[53] H. S. Gutowsky,et al. Nuclear magnetic resonance methods for determining chemical-exchange rates. , 1966, Journal of the American Chemical Society.
[54] B D Sykes,et al. Nuclear magnetic resonance studies of the dynamic aspects of molecular structure and interaction in biological systems. , 1972, Annual review of biophysics and bioengineering.
[55] T. Farrar,et al. Nuclear Magnetic Resonance , 1972 .
[56] H. S. Gutowsky,et al. Nuclear Magnetic Resonance Multiplets in Liquids , 1953 .
[57] H. Shimizu. Effect of Molecular Shape on Nuclear Magnetic Relaxation. II. Quadrupole Relaxation , 1964 .
[58] E. Purcell,et al. Effects of Diffusion on Free Precession in Nuclear Magnetic Resonance Experiments , 1954 .
[59] Rupley Ja,et al. Proton magnetic resonance study of the indole NH resonances of lysozyme. Assignment, deuterium exchange kinetics, and inhibitor binding. , 1971, Journal of the American Chemical Society.
[60] W. Gordy. Microwave spectroscopy. Introductory paper: quadrupole couplings, dipole moments and the chemical bond , 1955 .
[61] R. Bell,et al. Correlation of the intramolecular nuclear Overhauser effect with internuclear distance , 1970 .
[62] J. D. Ray,et al. Preparation and Proton Magnetic Resonance Studies of Anhydrous Ammonia , 1957 .
[63] R. Pearson,et al. Electron Paramagnetic Relaxation in Ionic Solutions , 1962 .
[64] John L. Markley,et al. Spin‐Lattice Relaxation Measurements in Slowly Relaxing Complex Spectra , 1971 .
[65] J. Hindman,et al. Deuteron spin-lattice relaxation of deuterium oxide in organic solvents , 1968 .