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Better cycling efficiencies have been obtained in PC-EC-DMC mixtures.
Partial N cycling efficiencies were calculated for every sub-system as the ratio of nutrient output to nutrient input.
However, the lithium cycling efficiencies at low temperature (0 °C) decreased by adding VC to the EC+DMC (1 1) electrolyte.
In the same solute solvents systems, Li cycling efficiencies for EC/eether mixed systems tended to increase Li cycling efficiency of 92%.
Cycling efficiencies of the Li electrode,in propylene carbonate (PC) 1 M in either LiClO4 or LiAsF6 were assessed as a function of electrolyte purification procedure.
The order of Li cycling efficiencies obtained in a Li-on-Pt half cell test was PC 67.0%) ≈ PC/DMA 65.8) > PC/DMAA 60.9%) > PC/DMF 51.2%).
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GBL-based electrolytes with MA showed both, higher cycling efficiency and cycle life of graphite electrodes.
The reasons seem to be that the Li-on-Li cycling minimizes the influence of electrochemical Li/Pt alloying and partial solvent oxidation during the cycle on Li cycling efficiency.
An areal capacitance of 376 mF cm−2 and a good reversibility with cycling efficiency of 88.8 % after 2,000 cycles are shown in Fig. 5b.
There is still a good reversibility with cycling efficiency of 88.8 % after 2,000 cycles, demonstrating its excellent long-term cycling stability and might be the promising candidates as the excellent electrode material.
This electrode presents a high specific capacitance of 1194 F g−1 at 12 mA cm−2 and good stability with a cycling efficiency of 87.3% after 2000 cycles.
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