Engineering the Site-Disorder and Lithium Distribution in the Lithium Superionic Argyrodite Li<sub>6</sub>PS<sub>5</sub>Br - Forschungsportal der Justus-Liebig-Universität Gießen:

Journalartikel

Engineering the Site-Disorder and Lithium Distribution in the Lithium Superionic Argyrodite Li₆PS₅Br

Autorenliste: Gautam, Ajay; Sadowski, Marcel; Ghidiu, Michael; Minafra, Nicolo; Senyshyn, Anatoliy; Albe, Karsten; Zeier, Wolfgang G.

Jahr der Veröffentlichung: 2021

Zeitschrift: Advanced Energy Materials

Bandnummer: 11

Heftnummer: 5

ISSN: 1614-6832

eISSN: 1614-6840

Open Access Status: Hybrid

DOI Link: https://doi.org/10.1002/aenm.202003369

Verlag: Wiley

Abstract:
Lithium argyrodite superionic conductors, of the form Li6PS5X (X = Cl, Br, and I), have shown great promise as electrolytes for all-solid-state batteries because of their high ionic conductivity and processability. The ionic conductivity of these materials is highly influenced by the structural disorder of S2-/X- anions; however, it is unclear if and how this affects the Li distribution and how it relates to transport, which is critical for improving conductivities. Here it is shown that the site-disorder once thought to be inherent to given compositions can be carefully controlled in Li6PS5Br by tuning synthesis conditions. The site-disorder increases with temperature and can be "frozen" in. Neutron diffraction shows this phenomenon to affect the Li+ substructure by decreasing the jump distance between so-called "cages" of clustered Li+ ions; expansion of these cages makes a more interconnected pathway for Li+ diffusion, thereby increasing ionic conductivity. Additionally, ab initio molecular dynamics simulations provide Li+ diffusion coefficients and time-averaged radial distribution functions as a function of the site-disorder, corroborating the experimental results on Li+ distribution and transport. These approaches of modulating the Li+ substructure can be considered essential for the design and optimization of argyrodites and may be extended to other lithium superionic conductors.

Zitierstile

Harvard-Zitierstil: Gautam, A., Sadowski, M., Ghidiu, M., Minafra, N., Senyshyn, A., Albe, K., et al. (2021) Engineering the Site-Disorder and Lithium Distribution in the Lithium Superionic Argyrodite Li₆PS₅Br, Advanced Energy Materials, 11(5), Article 2003369. https://doi.org/10.1002/aenm.202003369

APA-Zitierstil: Gautam, A., Sadowski, M., Ghidiu, M., Minafra, N., Senyshyn, A., Albe, K., & Zeier, W. (2021). Engineering the Site-Disorder and Lithium Distribution in the Lithium Superionic Argyrodite Li₆PS₅Br. Advanced Energy Materials. 11(5), Article 2003369. https://doi.org/10.1002/aenm.202003369

Zitierstile

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