Journal
SOLID STATE IONICS
Volume 177, Issue 35-36, Pages 3031-3036Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.ssi.2006.07.037
Keywords
solid state NMR; Li diffusion; spin-alignment echoes; extremely slow motions
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The measurement of diffusion parameters like activation energies and translational jump rates of small cations plays a key role in materials science. Especially the in-depth investigation of Li diffusion in ionic conductors is of great interest, because suitable ionic conductors are needed for, e.g., the development of new secondary ion battery systems. As the standard tracer method is not applicable to study Li diffusion due to the lack of a suitable radioactive isotope, Li diffusion is alternatively probed by solid state NMR techniques. With the different NMR methods being available, diffusion processes can be studied on different length- and timescales. In the present paper we use two-time spin-alignment echo (SAE) NMR for the direct, i.e., model independent, measurement of extremely small translational Li jump rates. To this end, different crystalline and glassy ion conductors like Li(x)TiS(2), Li(4)SiO(4) as well as LiNbO(3) served as model substances to reveal the special features of this technique. SAE-NMR, which was originally developed for deuterons, has also been applied in a few cases to spin-3/2 nuclei, like (7)Li, before. The corresponding correlation functions yield not only information about diffusion parameters but also about geometric properties of the diffusion pathways, making SAE-NMR a powerful method which complements well-established NMR techniques. (c) 2006 Elsevier B.V. All rights reserved.
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