Dendrite‐Free Lithium Metal Batteries Enabled by Coordination Chemistry in Polymer‐Ceramic Modified Separators

Abstract: Issues with lithium dendrite growth and dead lithium formation limit the practical application of lithium metal batteries, especially under high current conditions where uneven temperature distribution leads to serious safety concerns. Herein, In situ assembly of polydopamine (PDA) and aluminum nitride (AlN) coatings on polypropylene (PP) separator is introduced to address these challenges. The AlN particles are encapsulated by PDA, and the functional groups in PDA form Al‐O coordination bonds with Al3+, which… Show more

“…In order to prevent the formation and growth of Li dendrites, several efforts have been attempted. These include polymer electrolytes, − inorganic solid electrolytes, − modified separator, functional electrolyte additives, artificial solid electrolyte interphase, − and so on. − However, they still cannot reach the target of practical electrochemical performance. A promising alternative is the lithium powder anode (LPA) instead of traditional plain Li foil anode whose high surface area can reduce the local current density during the process of Li plating/stripping .…”

Novel Strategy for Designing rGO@LLZTO@Li Composite Lithium Powder Anodes with a Dual Conducting Ion-Electron Channel for High-Energy-Density Lithium Metal Batteries

“…In order to prevent the formation and growth of Li dendrites, several efforts have been attempted. These include polymer electrolytes, − inorganic solid electrolytes, − modified separator, functional electrolyte additives, artificial solid electrolyte interphase, − and so on. − However, they still cannot reach the target of practical electrochemical performance. A promising alternative is the lithium powder anode (LPA) instead of traditional plain Li foil anode whose high surface area can reduce the local current density during the process of Li plating/stripping .…”

Novel Strategy for Designing rGO@LLZTO@Li Composite Lithium Powder Anodes with a Dual Conducting Ion-Electron Channel for High-Energy-Density Lithium Metal Batteries

Eliminating water hazards and regulating electrode-electrolyte interfaces by multifunctional sacrificial electrolyte additives for long-life lithium metal batteries

Boehmite-PVDF-CTFE/F-PI composite separator irradiated by electron beam for high-rate lithium-ion batteries