metal and interface. Mobile charges has the same effect. But it makes the curve shift toward applied voltage because the movement of charges is determined by applied voltage(-,+). It is known that mobile charges are generated when dielectric material has the impurities such as Na ion.
The term fast interface state refers to the fact that these defects can change their charge state relatively fas
with microbes; others, such as drying, allow food to be stored without any special containment for long periods.
Common methods of applying these processes include drying, spray drying, freeze drying, freezing, vacuum-packing, canning, preserving in syrup, sugar crystallization, food irradiation, and adding preservatives or inert gases such as carbon dioxide. Other methods that not only help to
electrode Anode electrode Electrolyte Cell volt Energy Density
(Wh/kg)
NiMH
Battery Nickel oxide
(ex. NiO2H) Hydrogen occlusion alloy Good at ion transfer
(ex. KOH) 1.2V 60~120
Li-ion
Battery Metal oxide with lithium
(ex. LiCoO2, LiNiO2) Carbon
(ex.
Graphite) Organic electrolyte 3.6V 150~240
Na-ion
Battery Metal oxide with sodium (ex. NaCoO2) Carbon
(ex. CNa) Liquid NaFSA, KFSA mi
electrode output.
Electrolyte solution and electrolytic reactions that occur when things are separated by the current output.
Oxidation catalyst (Pt, Pd) with aluminum oxide (Al2O3) and thorium (ThO2) in the ceramic 0.05 (mm) or less resistance of the platinum coil The structure of putting
Platinum resistance and bleeding in the constant current Road heat devices degree 200-3
by lithium ion intercalation
Si has theoretical capacity of 4200mAh/g
Due to it’s large volume change, pulverization can be occurred.
Silicon has high-capacity but poor cycle stability
Carbon has low-capacity but good cycle stability
So silicon/carbon composites can have higher capacity than single carbon anode,
and better cycle stability than single silicon anode.