Accueil
Explorer
nav.journalClub
Tendances
Plus
Synapse
⌘+K
Synapse
Langue
Français
Français
LLZTO ceramic particles regulate in situ polymerization of hybrid electrolytes and enable stable cycling of Li metal batteries | Synapse
March 3, 2026
View Full Paper
LLZTO ceramic particles regulate in situ polymerization of hybrid electrolytes and enable stable cycling of Li metal batteries
PL
Peize Li
Sun Yat-sen University
QZ
Qiyao Zou
HL
Hanwei Liu
Sun Yat-sen University
See all
Key Points
Stable cycling is achieved through in situ polymerization of hybrid electrolytes, enhancing battery efficiency.
The use of LLZTO ceramic particles reveals improved stability over traditional materials in Li metal batteries.
Spanning various conditions, the analysis indicates robust performance metrics in the electrochemical setup.
Enhancing battery longevity may lead to significant advancements in energy storage technology for future applications.
Demander à l'IA
Mark Helpful
Like
Save
Bookmark
Relay
Share
View Full Paper
Demander à l'IA
Mark Helpful
Like
Save
Bookmark
Relay
Share
View Full Paper
Cite This Study
Copy
Li et al. (Sun,) studied this question.
synapsesocial.com/papers/69a76559badf0bb9e87d8c82
https://doi.org/https://doi.org/10.1016/j.cej.2026.173647