Add to ORKGNanomaterials with different morphologies were placed in discrete layers through the thickness of a negative electrode for a Li ion battery to exploit effectively the intrinsic energy storage capabilities of each nanomaterial morphology and to improve the overall dynamics of Li ion diffusion. The two layer electrode showed a combination of high volumetric capacity and rate capability that surpassed the performance of conventional randomly blended electrodes comprising the same nanomaterials. Local Li ion concentrations were measured through the electrode thickness and clearly showed the benefits of the layered structure over the alternatives. The two layer electrode was fabricated by a flexible and scalable suspension atomization and spray ...
Lithium-ion batteries (LIBs) are rechargeable batteries that use lithium ions for the storage and re...
Electrode materials and electrolytes play a vital role in device-level performance of rechargeable L...
Si-based high-capacity materials have gained much attention as an alternative to graphite in Li-ion ...
Nanomaterials with different morphologies were placed in discrete layers through the thickness of a ...
Nanostructuring is targeted as a solution to achieve the improvements required for implementing Li-i...
Optimized three-dimensional (3D) electrode architectures hold the promise of improving battery perfo...
Improving power and energy density by grading electrode microstructures is a promising topic in the ...
Improving power and energy density by grading electrode microstructures is a promising topic in the ...
Atomic layer deposition (ALD) coating on active material particles has been widely considered as an ...
Although the highest combined energy and power density of rechargeable lithium-ion (Li-ion) batterie...
A new challenging application for Li-ion battery has arisen from the rapid development of micro-elec...
Three-dimensional (3D) electrode structures have the potential to significantly improve Li-ion batte...
The increasing role of technology in our lives necessitates the development of advanced energy stora...
Li-ion battery cathodes based on LiFePO4 are fabricated by a layer-by-layer spray printing method wi...
With the increase in the demand for high performing energy storage devices, the energy storage commu...
Lithium-ion batteries (LIBs) are rechargeable batteries that use lithium ions for the storage and re...
Electrode materials and electrolytes play a vital role in device-level performance of rechargeable L...
Si-based high-capacity materials have gained much attention as an alternative to graphite in Li-ion ...
Nanomaterials with different morphologies were placed in discrete layers through the thickness of a ...
Nanostructuring is targeted as a solution to achieve the improvements required for implementing Li-i...
Optimized three-dimensional (3D) electrode architectures hold the promise of improving battery perfo...
Improving power and energy density by grading electrode microstructures is a promising topic in the ...
Improving power and energy density by grading electrode microstructures is a promising topic in the ...
Atomic layer deposition (ALD) coating on active material particles has been widely considered as an ...
Although the highest combined energy and power density of rechargeable lithium-ion (Li-ion) batterie...
A new challenging application for Li-ion battery has arisen from the rapid development of micro-elec...
Three-dimensional (3D) electrode structures have the potential to significantly improve Li-ion batte...
The increasing role of technology in our lives necessitates the development of advanced energy stora...
Li-ion battery cathodes based on LiFePO4 are fabricated by a layer-by-layer spray printing method wi...
With the increase in the demand for high performing energy storage devices, the energy storage commu...
Lithium-ion batteries (LIBs) are rechargeable batteries that use lithium ions for the storage and re...
Electrode materials and electrolytes play a vital role in device-level performance of rechargeable L...
Si-based high-capacity materials have gained much attention as an alternative to graphite in Li-ion ...