Add to ORKGThe reversibility of Li plating/stripping should be guaranteed in Li metal batteries. Seriously polarized Li growth during plating leads to the dendritic evolution of Li metal due to the uneven current distribution on the electrically conductive surface. Artificial protective layers covering electrodes have been used to uniformly distribute the current density at the conductive surface. Herein, we incorporated an active ingredient to attract Li ions into the dendrite-suppressing layer. Pyridinic nitrogen of graphitic carbon nitride (g-C3N4) served as the Li ion affinity center. Conformation of the nitrogen was changed from pyridinic to graphitic in the presence of Li ions, confirming the coordination of Li ion to the pyridinic nitrogen. Li ...
Enabling metallic-Li negative electrodes is motivated by a significant increase of energy density, b...
Lithium phosphorus oxynitride (Lipon) is an amorphous solid-state electrolyte that can completely su...
The use of interfacial layers to stabilize the lithium surface is a popular research direction for i...
The reversibility of lithium plating/stripping should be guaranteed in lithium metal batteries. Seri...
The reversibility of lithium plating/stripping should be guaranteed in lithium metal batteries. Seri...
Li metal anode is deemed the most promising candidate anode for high-energy battery systems such as ...
Uncontrollable dendrite growth resulting from the non-uniform lithium ion (Li+) flux and volume expa...
Uncontrolled dendrites resulting from nonuniform lithium (Li) nucleation/growth and Li volume expans...
Reversible lithium metal plating and stripping are required for the durable operation of lithium met...
Utilization of lithium (Li) metal anode is highly desirable for achieving high energy density batter...
The conductive framework is generating considerable interest for lithium metal anodes to accommodate...
Li3N is an excellent protective coating material for lithium electrodes with very high lithium-ion c...
Here, we report a new charge protocol for dendrite-free Li-metal battery based on the understanding ...
Li metal is demonstrated as one of the most promising anode materials for high energy density batter...
Dendrite-free lithium (Li) has been the primary issue for the practical application of metallic Li a...
Enabling metallic-Li negative electrodes is motivated by a significant increase of energy density, b...
Lithium phosphorus oxynitride (Lipon) is an amorphous solid-state electrolyte that can completely su...
The use of interfacial layers to stabilize the lithium surface is a popular research direction for i...
The reversibility of lithium plating/stripping should be guaranteed in lithium metal batteries. Seri...
The reversibility of lithium plating/stripping should be guaranteed in lithium metal batteries. Seri...
Li metal anode is deemed the most promising candidate anode for high-energy battery systems such as ...
Uncontrollable dendrite growth resulting from the non-uniform lithium ion (Li+) flux and volume expa...
Uncontrolled dendrites resulting from nonuniform lithium (Li) nucleation/growth and Li volume expans...
Reversible lithium metal plating and stripping are required for the durable operation of lithium met...
Utilization of lithium (Li) metal anode is highly desirable for achieving high energy density batter...
The conductive framework is generating considerable interest for lithium metal anodes to accommodate...
Li3N is an excellent protective coating material for lithium electrodes with very high lithium-ion c...
Here, we report a new charge protocol for dendrite-free Li-metal battery based on the understanding ...
Li metal is demonstrated as one of the most promising anode materials for high energy density batter...
Dendrite-free lithium (Li) has been the primary issue for the practical application of metallic Li a...
Enabling metallic-Li negative electrodes is motivated by a significant increase of energy density, b...
Lithium phosphorus oxynitride (Lipon) is an amorphous solid-state electrolyte that can completely su...
The use of interfacial layers to stabilize the lithium surface is a popular research direction for i...
