Spinel structure
Comparison of Cathode Material among Li-ion
| Mn cathode | Co cathode | Ni cathode | ||
|---|---|---|---|---|
| Supplier | AESC | A,B | C,D | E,F |
| Power Density | ◎ | ○ | ○ | |
| Energy Density | ○ | ◎ | ◎ | |
| Safety against Overcharge | ◎ | △ | △ | |
| Life | ○* | △ | ○ | ○ |
| Material Cost | ◎ | △ | ○ | |
| Less Environmental Burden | ◎ | △ | △ | |
*Enhanced performance because of material development◎:Good ○:Fair △:Poor
- Mn Li-ion is superior in power, safety, cost and environmental burden.
- AESC Mn Li-ion achieves long life by means of original cathode and electrolyte.
Anti-overcharging on crystal structure
Thermal stability of Manganese based cathodewith spinel stracture
Deposit of Misch Metal for LiB Cathode Material
Price variation for rare metal for Lib cathode material
