[HTML][HTML] Insight on air-induced degradation mechanism of Li7P3S11 to design a chemical-stable solid electrolyte with high Li2S utilization in all-solid-state Li/S …
The ideal solid-state electrolyte must have exceptional chemical and electrochemical
stability, high ionic conductivity, lower interfacial resistance and high active material …
stability, high ionic conductivity, lower interfacial resistance and high active material …
[PDF][PDF] Insight on air-induced degradation mechanism of Li7P3S11 to design a chemical-stable solid electrolyte with high Li2S utilization in all-solid-state Li/S batteries
MK Tufail, N Ahmad, L Zhou, M Faheem, L Yang… - researchgate.net
The ideal solid-state electrolyte must have exceptional chemical and electrochemical
stability, high ionic conductivity, lower interfacial resistance and high active material …
stability, high ionic conductivity, lower interfacial resistance and high active material …
Insight on air-induced degradation mechanism of Li7P3S11 to design a chemical-stable solid electrolyte with high Li2S utilization in all-solid-state Li/S batteries
M Khurram Tufail, N Ahmad, L Zhou… - Chemical …, 2021 - ui.adsabs.harvard.edu
The ideal solid-state electrolyte must have exceptional chemical and electrochemical
stability, high ionic conductivity, lower interfacial resistance and high active material …
stability, high ionic conductivity, lower interfacial resistance and high active material …
[DOC][DOC] Insight on Air-Induced Degradation Mechanism of Li 7 P 3 S 11 to Design a Chemical-Stable Solid Electrolyte with High Li 2 S Utilization in All-Solid-State Li/S …
MK Tufail, N Ahmad, L Zhou, M Faheem, L Yang… - researchgate.net
The sulfide-based solid-state electrolyte was synthesized by using a high-energy ball-milling
process with the Lithium sulfide (3N purity; Alfa Aesar), ZrO 2 (99.9%; Alfa Aesar), P 2 S 5 …
process with the Lithium sulfide (3N purity; Alfa Aesar), ZrO 2 (99.9%; Alfa Aesar), P 2 S 5 …
