Addressing Transport Issues in Non-Aqueous Li–air Batteries to Achieving High Electrochemical Performance
By A Mystery Man Writer
Description
Addressing Transport Issues in Non-Aqueous Li–air Batteries to Achieving High Electrochemical Performance
X-ray tomography images of the used anode. (a) Planar cross-section of
Effect of CO2-induced side reactions on the deposition in the non-aqueous Li-air batteries
Diffusion behaviors of Li þ in the PLL electrolyte (HPE). (a) The
Galvanostatic discharge/charge curves ( U vs. capacity) for the
The water catalysis at oxygen cathodes of lithium–oxygen cells
SEM images, b) XPS, and c) FT-IR spectra of the air-cathode of the PU
Rate capability and cycling performance of the Li–O2 cells with
Schematic diagram computation domain of a Li-air battery during discharge.
Discharge/charge profiles of the fifth cycles of the Li–O2 cells with
Voltage profiles as a function of discharge capacities for Li/air pouch
The evolution of Li 2 O 2 particles during charging and discharging.
Schematic of mass transport processes during discharging of a Li–air
Addressing Transport Issues in Non-Aqueous Li–air Batteries to Achieving High Electrochemical Performance
from
per adult (price varies by group size)