[HTML][HTML] Building lithium metal batteries under lean electrolyte conditions: challenges and progress
A lean electrolyte design is one of the central aims of current research on lithium metal
batteries (LMBs) based on liquid electrolytes because of its high impact on augmenting a …
batteries (LMBs) based on liquid electrolytes because of its high impact on augmenting a …
Present and future of functionalized Cu current collectors for stabilizing lithium metal anodes
Li metal has been recognized as the most promising anode materials for next-generation
high-energy-density batteries, however, the inherent issues of dendrite growth and huge …
high-energy-density batteries, however, the inherent issues of dendrite growth and huge …
Selective Potassium Deposition Enables Dendrite‐Resistant Anodes for Ultrastable Potassium‐Metal Batteries
Instability at the solid electrolyte interface (SEI) and uncontrollable growth of potassium
dendrites have been pressing issues for potassium‐ion batteries. Herein, a self‐supporting …
dendrites have been pressing issues for potassium‐ion batteries. Herein, a self‐supporting …
Electrolyte engineering for long-life Li-SPAN batteries
Sulfurized polyacrylonitrile, or SPAN, has been studied as an alternative to elemental sulfur
as a cathode in lithium–sulfur batteries. Unlike elemental S, the material features a solid …
as a cathode in lithium–sulfur batteries. Unlike elemental S, the material features a solid …
Composite Lithium Metal Structure to Mitigate Pulverization and Enable Long‐Life Batteries
In lithium metal batteries, non‐uniform stripping of lithium results in pit formation, which
promotes subsequent non‐uniform, dendritic deposition. This viscous cycle leads to …
promotes subsequent non‐uniform, dendritic deposition. This viscous cycle leads to …
A 10‐μm Ultrathin Lithium Metal Composite Anodes with Superior Electrochemical Kinetics and Cycling Stability
Lithium metal is a promising candidate for the promotion of the next generation high energy
density batteries. The employment of ultrathin Li metal anode with controllable thickness …
density batteries. The employment of ultrathin Li metal anode with controllable thickness …
Advancing Post‐Secondary Batteries under Lean Electrolyte Conditions through Interfacial Modification Strategies
In response to the growing global demand for portable electronics and electric vehicles,
there is an escalating interest in developing advanced battery technologies with superior …
there is an escalating interest in developing advanced battery technologies with superior …
Ultra-thin and ultra-light self-lubricating layer with accelerated dynamics for anode-free lithium metal batteries
Fabricating superior artificial interlayer with ingeniously controlled charge and mass
transport channels without compromise in cell mass and volume is urgent but challenging …
transport channels without compromise in cell mass and volume is urgent but challenging …
Electrode-level strategies enabling kinetics-controlled metallic Li confinement by the heterogeneity of interfacial activity and porosity
Abstract Three-dimensional (3D) host architectures have emerged as promising strategies
for resolving the critical issues of Li metal anodes, namely, severe volume changes and …
for resolving the critical issues of Li metal anodes, namely, severe volume changes and …
Constructing a lithiophilic polyaniline coating via in situ polymerization for dendrite-free lithium metal anode
Metallic lithium is regarded as one of the most promising electrode materials to break
through the energy density bottleneck of current commercial lithium-ion batteries. However …
through the energy density bottleneck of current commercial lithium-ion batteries. However …