Anode Materials

We have developed Barium Titanate/Phosphorus-reduced Graphene Oxide BaTiO3/P-rGO which is an anode material with extraordinary electrochemical performance. This innovative solution offers great charging capacity and even after 100 cycles it maintains 428 mAh g-1 capacity. It is a highly durable solution compared to graphite which is highly degradable after several uses. 

The anode material Inderr produces has a lower resistance value which implies a faster charging and discharging rate. This also means high efficiency and performance. It is stable and sustainable for many cycles and will revolutionize the future of Lithium-ion batteries. BaTiO3/P-rGO is a groundbreaking anode material and with a sustainable manufacturing process we envision to bring a change in the power industry. 

Anode Material recycling process:

1. Discharge and pretreat: Once the battery is in the factory we remove power or discharge them so that they can be prepared for dissembly. 
2. Disassemble: The plastic and iron shell is removed from the batteries. 
3. Grinding: The anode material is crushed in powder. 
4. Separation: The copper foil of the battery is separated from graphite mechanically. 
5. Lithium Extraction: Chemical leaching technique and precipitation technique are used to separate lithium from the remaining part. 
6. Regenerate: Heat treatment is used for the anode material so that we can provide the purest form of anode material 

How is the anode material used?

The anode that we extract from the batteries can be used in making new lithium-ion batteries. The anodes we sell are all high-grade, with high-quality results in new batteries. However, there are low-grade anodes used for several other purposes.