ChemRxiv
These are preliminary reports that have not been peer-reviewed. They should not be regarded as conclusive, guide clinical practice/health-related behavior, or be reported in news media as established information. For more information, please see our FAQs.
1/1
0/0

Rapid Crystallization and Kinetic Freezing of Site-Disorder in the Lithium Superionic Argyrodite Li6PS5Br

preprint
submitted on 10.09.2019 and posted on 11.09.2019 by Ajay Gautam, Marcel Sadowski, Nils Prinz, Henrik Eickhoff, Nicolo Minafra, Michael Ghidiu, Sean Culver, Karsten Albe, Thomas Fässler, Mirijam Zobel, Wolfgang Zeier

Lithium argyrodite superionic conductors are currently being investigated as solid electrolytes for all-solid-state batteries. Recently, in the lithium argyrodite Li6PS5X (X = Cl, Br, I), a site-disorder between the anionsS2–and Xhas been observed, which strongly affects the ionic transport and appears to be a function of the halide present. In this work, we show how such disorder in Li6PS5Br can be engineered viathe synthesis method. By comparing fast cooling (i.e. quenching) to more slowly cooled samples, we find that anion site-disorder is higher at elevated temperatures, and that fast cooling can be used to kinetically trap the desired disorder, leading to higher ionic conductivities as shown by impedance spectroscopy in combination with ab-initiomolecular dynamics. Furthermore, we observe that after milling, a crystalline lithium argyrodite can be obtained within one minute of heat treatment. This rapid crystallization highlights the reactive nature of mechanical milling and shows that long reaction times with high energy consumption are not needed in this class of materials. The fact that site-disorder induced viaquenching is beneficial for ionic transport provides an additional approach for the optimization and design of lithium superionic conductors.

Funding

Bundesministerium für Bildung und Forschung 3XP0177A

Bundesministerium für Bildung und Forschung 3XP0174A

History

Email Address of Submitting Author

wolfgang.g.zeier@pc.jlug.de

Institution

Justus-Liebig-University Giessen

Country

Germany

ORCID For Submitting Author

0000-0001-7749-5089

Declaration of Conflict of Interest

none

Exports

Logo branding

Categories

Exports