Add to ORKGLithium (Li) dendrite alleviation via three-dimensional (3D) structured current collectors has been well studied for Li metal-based batteries. Here we demonstrate that a hollow carbon nanofiber with proper interior to exterior radius ratio can enable Li-ions to deposit on the inner surface of the channels selectively due to the drifting effect from the structural stresses. Based on this principle, a lotus-root like structure is further designed to realize a dendrite-free hybrid Li anode with a high Li loading capability. The lotus-root like carbon nanofiber (LCNF) anode, with being coated by a lithiated Nafion (LNafion) layer as artificial solid electrolyte interface (SEI), achieves a capacity of > 3600 mA h gcarbon−1 for Li deposition/stri...
Conventional graphite faces theoretical capacity limitation, and conventional cells using graphite s...
Li-metal has steadily gained attention as one of the promising next-generation anode materials becau...
Li metal anodes, which have attracted much attention for their high specific capacity and low redox ...
Li metal anode is deemed the most promising candidate anode for high-energy battery systems such as ...
Lithium dendrite formation has hindered the practical implementation of lithium metal batteries with...
For future applications in portable electronics, electric vehicles and grid storage, batteries with ...
Lithium (Li) metal has attracted significant attention in areas that range from basic research to va...
Lithium metal is deemed as an ideal anode material for next-generation lithium ion batteries (LIBs) ...
Suppressing the formation of lithium (Li) dendrites is central to implementing Li-metal anode, which...
Lithium metal as a battery anode is one of the most promising energy storage materials owing to its ...
Lithium metal has the highest theoretical specific capacity and the most negative redox potential am...
Lithium metal has the highest theoretical specific energy density (3860 mAh.g(-1)) and the most nega...
Lithium dendrite growth on the anode during cycling leads to poor stability and severe safety issue,...
Lithium (Li) metal with high specific capacity and low redox potential is widely considered as a pot...
Uncontrolled dendrites resulting from nonuniform lithium (Li) nucleation/growth and Li volume expans...
Conventional graphite faces theoretical capacity limitation, and conventional cells using graphite s...
Li-metal has steadily gained attention as one of the promising next-generation anode materials becau...
Li metal anodes, which have attracted much attention for their high specific capacity and low redox ...
Li metal anode is deemed the most promising candidate anode for high-energy battery systems such as ...
Lithium dendrite formation has hindered the practical implementation of lithium metal batteries with...
For future applications in portable electronics, electric vehicles and grid storage, batteries with ...
Lithium (Li) metal has attracted significant attention in areas that range from basic research to va...
Lithium metal is deemed as an ideal anode material for next-generation lithium ion batteries (LIBs) ...
Suppressing the formation of lithium (Li) dendrites is central to implementing Li-metal anode, which...
Lithium metal as a battery anode is one of the most promising energy storage materials owing to its ...
Lithium metal has the highest theoretical specific capacity and the most negative redox potential am...
Lithium metal has the highest theoretical specific energy density (3860 mAh.g(-1)) and the most nega...
Lithium dendrite growth on the anode during cycling leads to poor stability and severe safety issue,...
Lithium (Li) metal with high specific capacity and low redox potential is widely considered as a pot...
Uncontrolled dendrites resulting from nonuniform lithium (Li) nucleation/growth and Li volume expans...
Conventional graphite faces theoretical capacity limitation, and conventional cells using graphite s...
Li-metal has steadily gained attention as one of the promising next-generation anode materials becau...
Li metal anodes, which have attracted much attention for their high specific capacity and low redox ...