Add to ORKGLimited by the size of microelectronics, as well as the space of electrical vehicles, there are tremendous demands for lithium-ion batteries with high volumetric energy densities. Current lithium-ion batteries, however, adopt graphite-based anodes with low tap density and gravimetric capacity, resulting in poor volumetric performance metric. Here, by encapsulating nanoparticles of metallic tin in mechanically robust graphene tubes, we show tin anodes with high volumetric and gravimetric capacities, high rate performance, and long cycling life. Pairing with a commercial cathode material LiNi0.6Mn0.2Co0.2O2, full cells exhibit a gravimetric and volumetric energy density of 590 W h Kg-1 and 1,252 W h L-1, respectively, the latter of which doub...
2020 American Chemical Society. Tin-based composites hold promise as anodes for high-capacity lithiu...
The drive for significant advancement in battery capacity and energy density inspired a revisit to t...
Carbon-based anodes are the key limiting factor in increasing the volumetric capacity of lithium-ion...
Limited by the size of microelectronics, as well as the space of electrical vehicles, there are trem...
A new type of hierarchical tin@carbon composite composed of graphene carbonaceous matrix and well-co...
Lithium- ion batteries have emerged as the most competitive flag ship energy storage devices due to ...
Tin (Sn)-based materials are potential alternatives to the commercial graphite anode for next genera...
Although nanotechnology has ushered in many new materials storing a high density of electrochemical ...
Although nanotechnology has ushered in many new materials storing a high density of electrochemical ...
Anode materials (Si, Ge, Sn, etc.) in lithium-ion batteries suffer from a remarkable loss of capacit...
The massive combustion of fossil fuels and associated environmental problems have placed the signifi...
The massive combustion of fossil fuels and associated environmental problems have placed the signifi...
The massive combustion of fossil fuels and associated environmental problems have placed the signifi...
A novel anode material for lithium-ion batteries, tin nanoparticles coated with carbon embedded in g...
A composite made from graphene nanoribbons (GNRs) and tin oxide (SnO<sub>2</sub>) nanoparticles (NPs...
2020 American Chemical Society. Tin-based composites hold promise as anodes for high-capacity lithiu...
The drive for significant advancement in battery capacity and energy density inspired a revisit to t...
Carbon-based anodes are the key limiting factor in increasing the volumetric capacity of lithium-ion...
Limited by the size of microelectronics, as well as the space of electrical vehicles, there are trem...
A new type of hierarchical tin@carbon composite composed of graphene carbonaceous matrix and well-co...
Lithium- ion batteries have emerged as the most competitive flag ship energy storage devices due to ...
Tin (Sn)-based materials are potential alternatives to the commercial graphite anode for next genera...
Although nanotechnology has ushered in many new materials storing a high density of electrochemical ...
Although nanotechnology has ushered in many new materials storing a high density of electrochemical ...
Anode materials (Si, Ge, Sn, etc.) in lithium-ion batteries suffer from a remarkable loss of capacit...
The massive combustion of fossil fuels and associated environmental problems have placed the signifi...
The massive combustion of fossil fuels and associated environmental problems have placed the signifi...
The massive combustion of fossil fuels and associated environmental problems have placed the signifi...
A novel anode material for lithium-ion batteries, tin nanoparticles coated with carbon embedded in g...
A composite made from graphene nanoribbons (GNRs) and tin oxide (SnO<sub>2</sub>) nanoparticles (NPs...
2020 American Chemical Society. Tin-based composites hold promise as anodes for high-capacity lithiu...
The drive for significant advancement in battery capacity and energy density inspired a revisit to t...
Carbon-based anodes are the key limiting factor in increasing the volumetric capacity of lithium-ion...