Add to ORKGLithium metal has been considered the "holy grail" anode material for rechargeable batteries despite the fact that its dendritic growth and low Coulombic efficiency (CE) have crippled its practical use for decades. Its high chemical reactivity and low stability make it difficult to explore the intrinsic chemical and physical properties of the electrochemically deposited lithium (EDLi) and its accompanying solid electrolyte interphase (SEI). To prevent the dendritic growth and enhance the electrochemical reversibility, it is crucial to understand the nano- and mesostructures of EDLi. However, Li metal is very sensitive to beam damage and has low contrast for commonly used characterization techniques such as electron microscopy. Inspired by b...
Li metal anode coupled with solid-state electrolyte is regarded as an important step for next-genera...
Li metal anode coupled with solid-state electrolyte is regarded as an important step for next-genera...
The solid electrolyte interphase (SEI), a complex layer that forms over the surface of electrodes ex...
Lithium metal batteries are promising candidates for meeting the increasing demand for next-generati...
Using cryogenic transmission electron microscopy, we revealed three-dimensional (3D) structural deta...
Using cryogenic transmission electron microscopy, we revealed three-dimensional (3D) structural deta...
Limited understanding of the lithium Li nucleation and growth mechanism has hampered the implement...
Limited understanding of the lithium Li nucleation and growth mechanism has hampered the implement...
Limited understanding of the lithium Li nucleation and growth mechanism has hampered the implement...
Lithium metal is viewed as the ultimate battery anode because of its high theoretical capacity and l...
Deep chemical and structural investigation of battery components is increasingly imperative for expl...
Future innovations and developments in advanced rechargeable batteries require atomic-scale observat...
Lithium metal is viewed as the ultimate battery anode because of its high theoretical capacity and l...
Advancements in energy storage technologies such as Li-based batteries depend on a deep understandin...
Reducing the ratio of Negative/Positive ratio (N/P ratio) is critical to increase the energy density...
Li metal anode coupled with solid-state electrolyte is regarded as an important step for next-genera...
Li metal anode coupled with solid-state electrolyte is regarded as an important step for next-genera...
The solid electrolyte interphase (SEI), a complex layer that forms over the surface of electrodes ex...
Lithium metal batteries are promising candidates for meeting the increasing demand for next-generati...
Using cryogenic transmission electron microscopy, we revealed three-dimensional (3D) structural deta...
Using cryogenic transmission electron microscopy, we revealed three-dimensional (3D) structural deta...
Limited understanding of the lithium Li nucleation and growth mechanism has hampered the implement...
Limited understanding of the lithium Li nucleation and growth mechanism has hampered the implement...
Limited understanding of the lithium Li nucleation and growth mechanism has hampered the implement...
Lithium metal is viewed as the ultimate battery anode because of its high theoretical capacity and l...
Deep chemical and structural investigation of battery components is increasingly imperative for expl...
Future innovations and developments in advanced rechargeable batteries require atomic-scale observat...
Lithium metal is viewed as the ultimate battery anode because of its high theoretical capacity and l...
Advancements in energy storage technologies such as Li-based batteries depend on a deep understandin...
Reducing the ratio of Negative/Positive ratio (N/P ratio) is critical to increase the energy density...
Li metal anode coupled with solid-state electrolyte is regarded as an important step for next-genera...
Li metal anode coupled with solid-state electrolyte is regarded as an important step for next-genera...
The solid electrolyte interphase (SEI), a complex layer that forms over the surface of electrodes ex...