High Energy Start from Here
Phylion masters high performance lithium iron phosphate material technology through material modification
Iron phosphate process has the advantages of high material gram capacity and excellent cycling performance
The primary pellets of composite graphite can improve low temperature performance of the core and the secondary pellets can improve compaction, energy density and high temperature cycling
Inter-particle carbon black, CNT and graphene composite conductive system formes a three-dimensional conductive network to improve the conductivity of the electrode, reduce the internal resistance of the electrode and improve the low temperature performance of the core
The development of new system solvents, lithium salts and fluorine additives enhances the low-temperature suitability of electrolytes and effectively improves conductivity at low temperatures
The life cycles of the battery cell and battery pack at normal temperature conditions
can achieve 8000+ and 4000+ cycles
The battery cell can be discharged to 80%,
the battery pack can be discharged to 85% at -20℃
Phylion High Energy Lithium Iron with excellent charge retention and recovery performance which can hold up to battery capacity
0 decay in case of 28 days without use *
