Affiliation:
1. Institut für Energie‐und Klimaforschung (IEK‐9: Grundlagen der Elektrochemie) Forschungszentrum Jülich D‐52425 Jülich Germany
2. Institut für Materialien und Prozesse für elektrochemische Energiespeicher‐und wandler RWTH Aachen University D‐52074 Aachen Germany
3. National Engineering Research Center for Carbohydrate Synthesis/Key Lab of Fluorine and Silicon for Energy Materials and Chemistry of Ministry of Education Jiangxi Normal University Nanchang 330022 China
4. Institut für Energie‐und Klimaforschung (IEK‐12: Helmholtz‐Institute Münster Ionics in Energy Storage) Forschungszentrum Jülich D‐48149 Münster Germany
Abstract
AbstractThe structural and morphological changes of the Lithium superionic conductor Li10GeP2S12, prepared via a widely used ball milling‐heating method over a comprehensive heat treatment range (50 – 700 °C), are investigated. Based on the phase composition, the formation process can be distinctly separated into four zones: Educt, Intermediary, Formation, and Decomposition zone. It is found that instead of Li4GeS4–Li3PS4 binary crystallization process, diversified intermediate phases, including GeS2 in different space groups, multiphasic lithium phosphosulfides (LixPySz), and cubic Li7Ge3PS12 phase, are involved additionally during the formation and decomposition of Li10GeP2S12. Furthermore, the phase composition at temperatures around the transition temperatures of different formation zones shows a significant deviation. At 600 °C, Li10GeP2S12 is fully crystalline, while the sample decomposed to complex phases at 650 °C with 30 wt.% impurities, including 20 wt.% amorphous phases. These findings over such a wide temperature range are first reported and may help provide previously lacking insights into the formation and crystallinity control of Li10GeP2S12.
Subject
Biomaterials,Biotechnology,General Materials Science,General Chemistry
Cited by
6 articles.
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