Add to ORKGUncontrollable dendrite growth resulting from the non-uniform lithium ion (Li+) flux and volume expansion in lithium metal (Li) negative electrode leads to rapid performance degradation and serious safety problems of lithium metal batteries. Although N-containing functional groups in carbon materials are reported to be effective to homogenize the Li+ flux, the effective interaction distance between lithium ions and N-containing groups should be relatively small (down to nanometer scale) according to the Debye length law. Thus, it is necessary to carefully design the microstructure of N-containing carbon materials to make the most of their roles in regulating the Li+ flux. In this work, porous carbon nitride microspheres (PCNMs) with abundan...
Li metal anode is deemed the most promising candidate anode for high-energy battery systems such as ...
Li metal anodes, which have attracted much attention for their high specific capacity and low redox ...
Lithium dendrite formation has hindered the practical implementation of lithium metal batteries with...
Uncontrollable dendrite growth resulting from the non-uniform lithium ion (Li+) flux and volume expa...
Suppressing Li dendrite growth has gained research interest due to the high theoretical capacity of ...
Abstract Suppressing Li dendrite growth has gained research interest due to the high theoretical cap...
Uncontrolled dendrites resulting from nonuniform lithium (Li) nucleation/growth and Li volume expans...
Li metal is demonstrated as one of the most promising anode materials for high energy density batter...
Because of its ultrahigh specific capacity, lithium metal holds great promise for revolutionizing cu...
Carbon materials as host matrix of lithium (Li) anode attract more and more attention in order to in...
Lithium dendrite growth on the anode during cycling leads to poor stability and severe safety issue,...
Lithium metal as a battery anode is one of the most promising energy storage materials owing to its ...
For future applications in portable electronics, electric vehicles and grid storage, batteries with ...
Three-dimensional (3D) porous N-doped carbon nanoflake structures decorated with in situ formed Ag n...
While porous carbon is widely used as a metallic lithium host framework, the weak wettability of the...
Li metal anode is deemed the most promising candidate anode for high-energy battery systems such as ...
Li metal anodes, which have attracted much attention for their high specific capacity and low redox ...
Lithium dendrite formation has hindered the practical implementation of lithium metal batteries with...
Uncontrollable dendrite growth resulting from the non-uniform lithium ion (Li+) flux and volume expa...
Suppressing Li dendrite growth has gained research interest due to the high theoretical capacity of ...
Abstract Suppressing Li dendrite growth has gained research interest due to the high theoretical cap...
Uncontrolled dendrites resulting from nonuniform lithium (Li) nucleation/growth and Li volume expans...
Li metal is demonstrated as one of the most promising anode materials for high energy density batter...
Because of its ultrahigh specific capacity, lithium metal holds great promise for revolutionizing cu...
Carbon materials as host matrix of lithium (Li) anode attract more and more attention in order to in...
Lithium dendrite growth on the anode during cycling leads to poor stability and severe safety issue,...
Lithium metal as a battery anode is one of the most promising energy storage materials owing to its ...
For future applications in portable electronics, electric vehicles and grid storage, batteries with ...
Three-dimensional (3D) porous N-doped carbon nanoflake structures decorated with in situ formed Ag n...
While porous carbon is widely used as a metallic lithium host framework, the weak wettability of the...
Li metal anode is deemed the most promising candidate anode for high-energy battery systems such as ...
Li metal anodes, which have attracted much attention for their high specific capacity and low redox ...
Lithium dendrite formation has hindered the practical implementation of lithium metal batteries with...