Toward dendrite-free metallic lithium anodes: from structural design to optimal electrochemical diffusion kinetics
Lithium metal anodes are ideal for realizing high-energy-density batteries owing to their
advantages, namely high capacity and low reduction potentials. However, the utilization of …
advantages, namely high capacity and low reduction potentials. However, the utilization of …
Advanced Nonflammable Organic Electrolyte Promises Safer Li‐Metal Batteries: From Solvation Structure Perspectives
S Yuan, K Ding, X Zeng, D Bin, Y Zhang… - Advanced …, 2023 - Wiley Online Library
Batteries with a Li‐metal anode have recently attracted extensive attention from the battery
communities owing to their high energy density. However, severe dendrite growth hinders …
communities owing to their high energy density. However, severe dendrite growth hinders …
Multifunctional SEI-like structure coating stabilizing Zn anodes at a large current and capacity
A Chen, C Zhao, J Gao, Z Guo, X Lu, J Zhang… - Energy & …, 2023 - pubs.rsc.org
The development and application of aqueous zinc-ion batteries still face some obstacles,
such as dendrite growth and side reactions triggered by active water. Here, we constructed a …
such as dendrite growth and side reactions triggered by active water. Here, we constructed a …
Lithium atom surface diffusion and delocalized deposition propelled by atomic metal catalyst toward ultrahigh-capacity dendrite-free lithium anode
Lithium metal anode possesses overwhelming capacity and low potential but suffers from
dendrite growth and pulverization, causing short lifespan and low utilization. Here, a …
dendrite growth and pulverization, causing short lifespan and low utilization. Here, a …
Tailoring electrolyte solvation for LiF-rich solid electrolyte interphase toward a stable Li anode
A solid electrolyte interphase (SEI) with robust mechanical property and high ionic
conductivity is imperative for high-performance lithium metal batteries since it can efficiently …
conductivity is imperative for high-performance lithium metal batteries since it can efficiently …
Unique tridentate coordination tailored solvation sheath toward highly stable lithium metal batteries
J Wu, Z Gao, Y Tian, Y Zhao, Y Lin, K Wang… - Advanced …, 2023 - Wiley Online Library
Electrolyte optimization by solvent molecule design is recognized as an effective approach
for stabilizing lithium (Li) metal batteries. However, the coordination pattern of Li ions (Li+) …
for stabilizing lithium (Li) metal batteries. However, the coordination pattern of Li ions (Li+) …
Interfacial “Single‐Atom‐in‐Defects” Catalysts Accelerating Li+ Desolvation Kinetics for Long‐Lifespan Lithium‐Metal Batteries
The lithium‐metal anode is a promising candidate for realizing high‐energy‐density
batteries owing to its high capacity and low potential. However, several rate‐limiting kinetic …
batteries owing to its high capacity and low potential. However, several rate‐limiting kinetic …
Toward Low‐Temperature Zinc‐Ion Batteries: Strategy, Progress, and Prospect in Vanadium‐Based Cathodes
Low‐temperature vanadium‐based zinc ion batteries (LT‐VZIBs) have attracted much
attention in recent years due to their excellent theoretical specific capacities, low cost, and …
attention in recent years due to their excellent theoretical specific capacities, low cost, and …
Bifunctional lithium-montmorillonite enabling solid electrolyte with superhigh ionic conductivity for high-performanced lithium metal batteries
L Wang, S Yi, Q Liu, Y Li, Y Hu, H Tu, Y Wang… - Energy Storage …, 2023 - Elsevier
Solid-state lithium-metal batteries (SSLMBs) have been regarded as one of the most
promising battery systems due to their high energy density and excellent safety. However …
promising battery systems due to their high energy density and excellent safety. However …
Electrocatalytic MOF‐Carbon Bridged Network Accelerates Li+‐Solvents Desolvation for High Li+ Diffusion toward Rapid Sulfur Redox Kinetics
Lithium‐sulfur batteries are famous for high energy density but prevented by shuttling effect
and sluggish electrochemical conversion kinetics due to the high energy barriers of Li+ …
and sluggish electrochemical conversion kinetics due to the high energy barriers of Li+ …