Multinuclear PFGSTE NMR description of 39K, 23Na, 7Li, and 1H specific activation energies governing diffusion in alkali nitrite solutions

Multinuclear PFGSTE NMR description of 39K, 23Na, 7Li, and 1H specific activation energies governing diffusion in alkali nitrite solutions

[Display omitted] •Established feasibility of 39K PFGSTE NMR in concentrated potassium nitrite solutions despite unfavorable NMR properties•Identified viable spin-lattice and spin-spin relaxation coefficients permissive for 39K NMR diffusometry•Found links between alkali cation self-diffusion, water...

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Bibliographic Details
Published in:Journal of magnetic resonance (1997) Vol. 364; p. 107707
Main Authors: Graham, Trent R., Kennedy, Ashley R., Felsted, Robert G., Colina-Ruiz, Roberto A., Nienhuis, Emily T., Reynolds, Jacob G., Pearce, Carolyn I.
Format: Journal Article
Language:English
Published: Elsevier Inc 01-07-2024
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Summary:[Display omitted] •Established feasibility of 39K PFGSTE NMR in concentrated potassium nitrite solutions despite unfavorable NMR properties•Identified viable spin-lattice and spin-spin relaxation coefficients permissive for 39K NMR diffusometry•Found links between alkali cation self-diffusion, water activation energy, and hydration enthalpy in concentrated alkali nitrite solutions While pulsed field gradient stimulated echo nuclear magnetic resonance (PFGSTE NMR) spectroscopy has found widespread use in the quantification of self-diffusivity for many NMR-active nuclei, extending this technique to uncommon nuclei with unfavorable NMR properties remains an active area of research. Potassium-39 (39K) is an archetypical NMR nucleus exhibiting an unfavorable gyromagnetic ratio combined with a very low Larmor frequency. Despite these unfavorable properties, this work demonstrates that 39K PFGSTE NMR experiments are possible in aqueous solutions of concentrated potassium nitrite. Analysis of the results indicates that 39K NMR diffusometry is feasible when the nuclei exhibit spin–lattice and spin–spin relaxation coefficients on the order of 60–100 ms and 50–100 ms, respectively. The diffusivity of 39K followed Arrhenius behavior, and comparative 23Na, 7Li, and 1H PFGSTE NMR studies of equimolal sodium nitrite and lithium nitrite solutions led to correlations between the enthalpy of hydration with the activation energy governing self-diffusion of the cations and also of water. Realizing the feasibility of 39K PFGSTE NMR spectroscopy has a widespread impact across energy sciences because potassium is a common alkali element in energy storage materials and other applications.
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ISSN:1090-7807
1096-0856
1096-0856
DOI:10.1016/j.jmr.2024.107707