solid state batteries
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2022 ◽  
Vol 210 ◽  
pp. 114475
Author(s):  
Ziqi Zhang ◽  
Chuang Yu ◽  
Ruonan Xu ◽  
Linfeng Peng ◽  
Haotian Ren ◽  
...  

2022 ◽  
Vol 26 (1) ◽  
pp. 100973
Author(s):  
Rui Guo ◽  
Gustavo M. Hobold ◽  
Betar M. Gallant

2022 ◽  
Vol 26 (1) ◽  
pp. 100977
Author(s):  
Yong Bae Song ◽  
Hiram Kwak ◽  
Woosuk Cho ◽  
Kyung Su Kim ◽  
Yoon Seok Jung ◽  
...  

Author(s):  
John A. Lewis ◽  
Chanhee Lee ◽  
Yuhgene Liu ◽  
Sang Yun Han ◽  
Dhruv Prakash ◽  
...  

2022 ◽  
Author(s):  
Wei Xia ◽  
Yang Zhao ◽  
Feipeng Zhao ◽  
Keegan Adair ◽  
Ruo Zhao ◽  
...  

2022 ◽  
Author(s):  
Chencheng Liu ◽  
Herbert Früchtl ◽  
John T. S. Irvine ◽  
Michael Bühl

Author(s):  
Jürgen Peter Gross ◽  
Jürgen Malzbender ◽  
Enkhtsetseg Dashjav ◽  
Frank Tietz ◽  
Ruth Schwaiger

AbstractLATP sheets with LiF and SiO2 addition prepared by tape cast as electrolytes for solid-state batteries were characterized regarding conductivity, microstructure and mechanical properties aiming toward an optimized composition. The use of additives permitted a reduction of the sintering temperature. Rietveld analyses of the samples with additives revealed a phase mixture of NaSICON modifications crystallizing with rhombohedral and orthorhombic symmetry as a superstructure with space group Pbca. It seems that LiF acts as a sintering additive but also as a mineralizer for the superstructure of LATP. As general trend, higher LiF to SiO2 ratios led to lower porosities and higher values of elastic modulus and hardness determined by indentation testing, but the presence of the orthorhombic LATP leads to a decrease in the ionic conductivity. Micro-pillar testing was used to assess the crack growth behavior revealing weak grain boundaries.


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