Experimental evidence for the relaxation coupling of all longitudinal 7 Li magnetization orders in the superionic conductor Li 10 GeP 2 S 12

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • M. C. Paulus
  • A. Paulus
  • P. P. M. Schleker
  • P. Jakes
  • R. A. Eichel
  • Paul Heitjans
  • J. Granwehr

Organisationseinheiten

Externe Organisationen

  • Forschungszentrum Jülich
  • Rheinisch-Westfälische Technische Hochschule Aachen (RWTH)
  • Max-Planck-Institut für Chemische Energiekonversion
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)57-66
Seitenumfang10
FachzeitschriftJournal of Magnetic Resonance
Jahrgang303
Frühes Online-Datum11 Apr. 2019
PublikationsstatusVeröffentlicht - Juni 2019

Abstract

This contribution addresses the experimental proof of the relaxation coupling of the 7 Li (I = 3/2) longitudinal magnetization orders in the solid-state electrolyte Li 10 GeP 2 S 12 (LGPS). This effect was theoretically described by Korb and Petit in 1988 but has not yet been shown experimentally. In a 2D-T 1 /spin-alignment echo (SAE) experiment, the inverse Laplace transformation of the spectral component over two time dimensions revealed the asymmetric course of the spin-lattice relaxation following from the coupling of all longitudinal orders. These observations were supported by Multi-quantum-filter experiments and by simulations of the 2D-T 1 /SAE experiment with a lithium spin system. Since the asymmetric relaxation effects are directly dependent on the velocities and degrees of freedom of ion motion they could be used especially in fast Li-ion conductors as a separation tool for environments with different mobility processes.

ASJC Scopus Sachgebiete

Zitieren

Experimental evidence for the relaxation coupling of all longitudinal 7 Li magnetization orders in the superionic conductor Li 10 GeP 2 S 12. / Paulus, M. C.; Paulus, A.; Schleker, P. P. M. et al.
in: Journal of Magnetic Resonance, Jahrgang 303, 06.2019, S. 57-66.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Paulus MC, Paulus A, Schleker PPM, Jakes P, Eichel RA, Heitjans P et al. Experimental evidence for the relaxation coupling of all longitudinal 7 Li magnetization orders in the superionic conductor Li 10 GeP 2 S 12. Journal of Magnetic Resonance. 2019 Jun;303:57-66. Epub 2019 Apr 11. doi: 10.15488/4944, 10.1016/j.jmr.2019.04.006
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title = "Experimental evidence for the relaxation coupling of all longitudinal 7 Li magnetization orders in the superionic conductor Li 10 GeP 2 S 12",
abstract = " This contribution addresses the experimental proof of the relaxation coupling of the 7 Li (I = 3/2) longitudinal magnetization orders in the solid-state electrolyte Li 10 GeP 2 S 12 (LGPS). This effect was theoretically described by Korb and Petit in 1988 but has not yet been shown experimentally. In a 2D-T 1 /spin-alignment echo (SAE) experiment, the inverse Laplace transformation of the spectral component over two time dimensions revealed the asymmetric course of the spin-lattice relaxation following from the coupling of all longitudinal orders. These observations were supported by Multi-quantum-filter experiments and by simulations of the 2D-T 1 /SAE experiment with a lithium spin system. Since the asymmetric relaxation effects are directly dependent on the velocities and degrees of freedom of ion motion they could be used especially in fast Li-ion conductors as a separation tool for environments with different mobility processes. ",
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T1 - Experimental evidence for the relaxation coupling of all longitudinal 7 Li magnetization orders in the superionic conductor Li 10 GeP 2 S 12

AU - Paulus, M. C.

AU - Paulus, A.

AU - Schleker, P. P. M.

AU - Jakes, P.

AU - Eichel, R. A.

AU - Heitjans, Paul

AU - Granwehr, J.

N1 - Funding Information: The authors would like to thank Peter-Paul Harks and Peter Notten (TU Delft and Eindhoven University of Technology) for synthesizing the material and support of the project. Funding from the Ministry of Innovation, Science and Research (MIWF) of the State of North Rhine-Westphalia through project “Ionic conductors for efficient energy storage” is gratefully acknowledged. Simulations were performed with computing resources granted by RWTH Aachen University under project rwth0204 .

PY - 2019/6

Y1 - 2019/6

N2 - This contribution addresses the experimental proof of the relaxation coupling of the 7 Li (I = 3/2) longitudinal magnetization orders in the solid-state electrolyte Li 10 GeP 2 S 12 (LGPS). This effect was theoretically described by Korb and Petit in 1988 but has not yet been shown experimentally. In a 2D-T 1 /spin-alignment echo (SAE) experiment, the inverse Laplace transformation of the spectral component over two time dimensions revealed the asymmetric course of the spin-lattice relaxation following from the coupling of all longitudinal orders. These observations were supported by Multi-quantum-filter experiments and by simulations of the 2D-T 1 /SAE experiment with a lithium spin system. Since the asymmetric relaxation effects are directly dependent on the velocities and degrees of freedom of ion motion they could be used especially in fast Li-ion conductors as a separation tool for environments with different mobility processes.

AB - This contribution addresses the experimental proof of the relaxation coupling of the 7 Li (I = 3/2) longitudinal magnetization orders in the solid-state electrolyte Li 10 GeP 2 S 12 (LGPS). This effect was theoretically described by Korb and Petit in 1988 but has not yet been shown experimentally. In a 2D-T 1 /spin-alignment echo (SAE) experiment, the inverse Laplace transformation of the spectral component over two time dimensions revealed the asymmetric course of the spin-lattice relaxation following from the coupling of all longitudinal orders. These observations were supported by Multi-quantum-filter experiments and by simulations of the 2D-T 1 /SAE experiment with a lithium spin system. Since the asymmetric relaxation effects are directly dependent on the velocities and degrees of freedom of ion motion they could be used especially in fast Li-ion conductors as a separation tool for environments with different mobility processes.

KW - Lithium-ion migration

KW - Quadrupolar relaxation

KW - Simulations

KW - Solid-state electrolytes

KW - Solid-state NMR

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VL - 303

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JF - Journal of Magnetic Resonance

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