Journal ArticleDOI
Nuclear Magnetic Interactions in the HF Molecule
I. Solomon,N. Bloembergen +1 more
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TLDR
In this article, a scalar term AI·S resulting from the indirect electron-coupled interaction between the two nuclei removes all the discrepancies between the calculated and observed decay times.Abstract:
Magnetic relaxation times of hydrogen and fluorine in anhydrous hydrofluoric acid cannot be accounted for on the assumption of a pure dipole‐dipole interaction between the hydrogen and the fluorine nuclei in the same molecule. However, the introduction, in the Hamiltonian, of a scalar term AI·S resulting from the indirect electron‐coupled interaction between the two nuclei removes all the discrepancies between the calculated and observed decay times. Although the splitting due to this scalar term is smeared out by the rapid chemical exchange of the protons with the traces of water present in the acid, the nuclear Overhauser effect provides the extra parameter required to separate the dipole‐dipole interaction from the scalar interaction and to calculate separately the scalar splitting and the exchange rate of the protons. The value obtained for the splitting is A/h=615 cps.The same method has been applied to investigate the structure of the HF molecule in solutions. The experimental results can be explain...read more
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NMR‐Relaxation Mechanisms of O17 in Aqueous Solutions of Paramagnetic Cations and the Lifetime of Water Molecules in the First Coordination Sphere
T. J. Swift,Robert E. Connick +1 more
TL;DR: In this paper, an investigation was made of the temperature and frequency dependence of T2 for O17 in aqueous solutions containing Mn2+, Fe2+, Co2+, Ni2+, and Cu2+.
Journal ArticleDOI
Proton Relaxation Times in Paramagnetic Solutions. Effects of Electron Spin Relaxation
N. Bloembergen,L. O. Morgan +1 more
TL;DR: In this article, it was shown that the distortion of the hydrated complex by collisions with other water molecules is responsible for the decrease in T2 in Mn++ (and other) solutions in very high magnetic fields.
Journal ArticleDOI
Proton Relaxation Times in Paramagnetic Solutions
TL;DR: In this paper, an exchange interaction between the electron spin and proton spin in adjacent water molecules in paramagnetic solutions was proposed, and an explanation was given why T1/T2 for protons is much larger than unity in solutions of these particular ions in high magnetic fields, whereas T1 is about equal to T2 in other solutions or in low fields.
Journal ArticleDOI
Lanthanide probes for bioresponsive imaging.
TL;DR: Two classes of lanthanide probes are focused on that are subsets of the larger area of metalloimaging: luminescent and magnetic lanthanides.
Journal ArticleDOI
Intrinsic motions along an enzymatic reaction trajectory
Katherine A. Henzler-Wildman,Vu Hong Thai,Ming Lei,Maria Ott,Magnus Wolf-Watz,Magnus Wolf-Watz,Timothy D. Fenn,Timothy D. Fenn,Ed Pozharski,Ed Pozharski,Mark A. Wilson,Mark A. Wilson,Gregory A. Petsko,Martin Karplus,Christian G. Hübner,Christian G. Hübner,Dorothee Kern +16 more
TL;DR: In this paper, the authors show evidence for conformational substates along the trajectory towards the catalytically competent 'closed' state in the ligand-free form of the enzyme adenylate kinase.
References
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Journal ArticleDOI
Effects of Diffusion on Free Precession in Nuclear Magnetic Resonance Experiments
H. Y. Carr,Edward M. Purcell +1 more
TL;DR: In this paper, the effect of diffusion on free precession in nuclear resonance has been studied, and a new scheme for measuring the transverse relaxation time is described, which largely circumvents the diffusion effect.
Journal ArticleDOI
Relaxation Processes in a System of Two Spins
TL;DR: Abragam and Pound's method for the calculation of the longitudinal relaxation time was extended to the transverse relaxation time in this paper, which gave rise to a steady and transient Overhauser effect.
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Electron Coupled Interactions between Nuclear Spins in Molecules
TL;DR: In addition to the direct magnetic interaction between two nuclear spins in a molecule, the nuclei can have an effective mutual interaction as a result of the magnetic interactions between each nuclei and the electrons of the molecule as discussed by the authors.
Journal ArticleDOI
Dissociation, Chemical Exchange, and the Proton Magnetic Resonance in Some Aqueous Electrolytes
H. S. Gutowsky,A. Saika +1 more
TL;DR: In this paper, a theoretical analysis of the relation between the magnetic absorption line shape and the chemical exchange frequency suggests that rather short chemical lifetimes can be measured; at least one can infer from the appearance of a single or complex resonance that the average lifetime is greater or less than a determinable value in a range about 10−2 to 10−4 sec.