… in the rate capability needs to be clarified. The objective of the present work is to (i) quantify
the maximum rate … understand the limit to this high rate capability by extracting the diffusion …

… electric vehicles, require a higher charge−discharge rate capability. For the higher rate
capability, we should tackle a kinetic problem due to the slow diffusion of Li-ions in electrodes. …

… high potential ranges, meanwhile it also contributes to enhance rate capability because of its
excellent feature as Li ion … applied to this Li-rich system to approach higher rate and specific …

… of 185.1 mA hg −1 at a very high current density of 1200 mA g −1 between 2.0 … highest
reported to date at high charge‐discharge rates. Therefore, the present spinel‐layered Li‐rich Li…

… with nanoparticles have been prepared and investigated as high-rate and long-life cathode
materials for rechargeable lithium-ion batteries. One-dimensional porous nanostructures of …

… An initial discharge capacity of 105 mAh g −1 could be delivered at 10 C rate, and capacity
retention of about 90% was obtained after 500 cycles at this high rate. The durable high-rate …

… route and one pathway for Li ion transport. If E f ′ exceeds more energy bands, a 3D
reaction route can be a direction for Li ion transport, by which high rate reaction can occur. In …

… We find that at moderate current rates of 0.5–1C (1C rate is 660 mA g –1 ), Li-ion and Na-ion
storage capacities for all three sizes are very similar (580–640 mAh g –1 , lowest for 10 nm …

… at the rate of compared with 29% of the raw LTO. We speculate that the good rate capability
… and charge-transfer resistance for lithium-ion intercalation are reduced as the coated carbon …

… As a consequence, this type of MnO-based hybrids exhibit a maximum specific capacity of
1119 mAh g –1 at high rate of 500 mA g –1 with outstanding charge/discharge rate capability (…