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1 Ergebnisse
1
Superior Low-Temperature All-Solid-State Battery Enabled by..:
Pushun Lu
;
Sheng Gong
;
Chuhong Wang
...
doi:10.1021/acsnano.3c07023.s001. , 2024
Link:
https://doi.org/10.1021/acsnano.3c07023.s001
RT Journal T1
Superior Low-Temperature All-Solid-State Battery Enabled by High-Ionic-Conductivity and Low-Energy-Barrier Interface
UL https://suche.suub.uni-bremen.de/peid=base-ftdeakinunifig:oai:figshare.com:article_25316111&Exemplar=1&LAN=DE A1 Pushun Lu A1 Sheng Gong A1 Chuhong Wang A1 Zhiao Yu A1 Yuli Huang A1 Tenghuan Ma A1 Jingchen Lian A1 Zhiwen Jiang A1 Liquan Chen A1 Hong Li A1 Fan Wu YR 2024 K1 Biophysics K1 Biochemistry K1 Biotechnology K1 Biological Sciences not elsewhere classified K1 Chemical Sciences not elsewhere classified K1 theoretical evaluation clarifies K1 suppressed interfacial reactions K1 sup >+</ sup K1 improved capacity retention K1 demonstrated inspiring performances K1 79 kj mol K1 39 kj mol K1 19 kj mol K1 90 </ sub K1 6 </ sub K1 5 </ sub K1 3 </ sub K1 2 </ sub K1 05 </ sub K1 state battery enabled K1 ion transport across K1 highly stable interface K1 sulfide solid electrolyte K1 temperature interface design K1 sulfide se interface K1 lzo coating layer K1 low energy barrier K1 low activation energy K1 high ionic conductivity K1 coating layer K1 barrier interface K1 activation energy K1 transfer across K1 state batteries K1 unstable interface K1 interface applicable K1 superior low K1 thus realizing K1 subzero temperatures K1 still unidentified K1 sluggish lithium K1 se interfaces K1 recent years K1 mild temperature K1 kinetic attributes K1 halide se K1 cryogenic temperatures K1 9 %) JF doi:10.1021/acsnano.3c07023.s001 LK http://dx.doi.org/https://doi.org/10.1021/acsnano.3c07023.s001 DO https://doi.org/10.1021/acsnano.3c07023.s001 SF ELIB - SuUB Bremen
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