Spatially anion-confined electrolyte enables high-rate and durable anode-free sodium batteries. [PDF]
Sci AdvChen J +10 more
europepmc +1 more source
Interfacial Engineering with Lithium Titanate on MCMB Anode for Lithium‐Ion Batteries
ENERGY &ENVIRONMENTAL MATERIALS, EarlyView.Graphical illustration of lithium titanate modified artificial graphite anode to enhance the lithium ion diffusion and stabilise the electrode‐electrolyte interface, effectively suppressing the lithium plating and improving electrochemical performance.
Ruby Alphonse Raj +3 more
wiley +1 more source
Enhanced Interfacial Stability and Reaction Kinetics Through Solvation Engineering and Water-Induced Hydrolysis in Zinc Metal Batteries. [PDF]
Small MethodsWang Z +4 more
europepmc +1 more source
The fatty acid solvates of griseofulvin-desolvation data
Journal of Pharmacy and Pharmacology, 1981 D J, Grant, I K, Abougela
openaire +2 more sources
ENERGY &ENVIRONMENTAL MATERIALS, EarlyView.Lithium‐ion battery anodes that maintain good performance and excellent stability under high temperature conditions. Silicon oxide (SiO) has great potential as a high‐capacity anode for lithium‐ion batteries, but its practical use is limited by excessive volume expansion (>200%) and rapid capacity fade, especially at high temperatures.
Keren Shi +9 more
wiley +1 more source
Membrane Engineering for Battery Systems: Bridging Design Principles and Frontier Applications
ENERGY &ENVIRONMENTAL MATERIALS, EarlyView.The review emphasizes membrane separators' role in battery performance and safety, covering redox flow, lithium‐ion, and solid‐state batteries. It reviews advances in membrane materials (e.g., polymer electrolytes, hybrid composites) and ion transport mechanisms, while addressing challenges like dendrite growth and crossover losses.
Xiaoqun Zhou +3 more
wiley +1 more source
Cosolvent-Regulated Weakly Solvating Locally Concentrated Ionic Liquid Electrolyte for Long-Life Lithium Metal Batteries at Low Temperatures. [PDF]
Small SciXu L +8 more
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Tuning Solvation Structures with KPF6 Additives for More Stable Lithium Metal Battery Cycling
ENERGY &ENVIRONMENTAL MATERIALS, EarlyView.Introducing an optimal 0.1 m KPF6 additive into the conventional 1 m LiPF6‐EC/DEC electrolyte promoted small aggregate formation, enhanced Li+ transport, and facilitated a uniform SEI, thereby significantly improving the cycling stability of Li‖LiFePO4 cells. Uncontrolled dendrite growth and low Coulombic efficiency remain major challenges limiting the
Houhou Huang +6 more
wiley +1 more source
Iodine-Based Electrolyte Chemistry Enabling Reversible Ca Metal Anodes. [PDF]
JACS AuHou Z +6 more
europepmc +1 more source
ENERGY &ENVIRONMENTAL MATERIALS, EarlyView.Aqueous zinc–iodine batteries (Zn–I2Bs) offer promise for grid storage due to safety and cost advantages yet face critical bottlenecks: severe self‐discharge (polyiodide shuttling and HER), limited energy density, sluggish kinetics, and zinc anode instability.
Jia‐Lin Yang +3 more
wiley +1 more source