-
Etched lithium anodes show more uniform plating and stripping
Chemical etching creates quasi-single-crystalline (110)-oriented lithium metal anodes that suppress dendrite growth and enable stable cycling for over 3,000 hours.
-
Clustered solvents and anions reduce lithium de-coordination energy
Study reveals how strong-coordination salts and solvents paradoxically improve low-temperature lithium-metal battery performance through cluster solvate formation and optimized charge distribution.
-
In Search of Lithium Intermetallics with Channel Structures: Prediction and Discovery of Ternary Silicides Li–RE–Si (RE = Pr, Nd, Tm, Lu)
Machine learning models predict channel structures in ternary lithium-metal-silicide intermetallics, enabling experimental discovery of new LiRESi phases for energy storage.
-
Lithium use in psychiatric emergencies requires careful selection and monitoring
Narrative review of lithium carbonate use in psychiatric emergencies, examining clinical indications, toxicity management, and organizational requirements for safe application in acute care settings.
-
Low-temperature lithium-metal batteries improved by hierarchical solvation
Hierarchical solvating electrolyte enables high-performance lithium-metal batteries at extreme low temperatures through molecular engineering of solvation sheaths and solid electrolyte interphase.
-
In Situ Organoselenization for Ultrastable Li−Se Batteries
In situ organoselenization strategy converts selenium into organic selenide forms to prevent polyselenide shuttle in lithium-selenium batteries, achieving 92.87% capacity retention after 1300 cycles.
-
Frozen organic electrolyte conducts lithium ions
Demonstration that frozen ethylene carbonate with 0.2 m LiTFSI conducts Li+ via solid-state hopping (≈0.64 mS/cm, t+≈0.8), enabling liquid-level cell capacity and Li2O-rich SEI with extended.
