Overview
Our Sodium-ion batteries utilize the innovative BioBlack™ derived from bio-waste/agricultural waste. Hard Carbon, an anode material, is recognized as having an outstanding electrochemical performance for Sodium-ion Batteries.
Indi Energy’s Sodium-ion batteries are 25%-30% cheaper than presently commercialized Lithium-ion batteries but deliver similar battery performance as Li-ion batteries.
Electric Vehicles
Solar/ Wind Grid Storage
Stationary Energy Storage
Indi Energy’s
Sodium-ion Batteries Application
Backups for Data Centers/Telecom
UPS/Inverter batteries
Small Applications such as Toys, Emergency Lights, etc
Salient Features
1. Energy density is 3-4 times better
Indi Energy’s Sodium-ion battery’s energy density is 3-4 times better than presently commercialized lead-acid batteries. Our innovation will increase battery capacity and lifetime and reduce weight and volume.
2. Potential applications of our Sodium-ion battery
The potential applications of our Sodium-ion battery include electric two-wheelers or three-wheelers, energy storage systems for solar and wind, drone batteries, SLI batteries, inverter batteries, UPS batteries, toy batteries, batteries for emergency lights, etc.
3. Lower cost, reliability, safety, import substitute, higher performance
Due to their lower cost, reliability, safety, import substitution, and higher performance, our Sodium-ion batteries will be an absolute game changer in accelerating the world’s transition towards renewable energy and electric mobility.
4. Eco-friendly & scalable manufacturing
The process of manufacturing our Sodium-ion battery materials is also sustainable, eco-friendly, facile, low-cost, and industrially scalable.
5. Sustainable raw materials
The raw materials for making our Sodium-ion batteries are abundant, sustainable, and environmentally friendly.
6. No additional infrastructure investment is required
There is no need to set up additional machinery to manufacture our Sodium-ion batteries. It can efficiently work with the existing machinery of any Lithium-ion battery plant.
Indi Energy’s Sodium-ion Battery vs. Contemporary Storage Technologies
| Attributes | Indi Energy’s Sodium-ion batteries | Lithium-ion batteries | Lead-acid batteries |
| Reserves | Abundant | Scarce | Abundant |
| Sourcing | Environment-friendly | Non-eco friendly | Non-eco friendly |
| Battery Cost | Cheaper than Li-ion, Costlier than Lead-acid batteries | Most expensive | Cheapest |
| Temperature Stability | Wide temperature stability | Unstable at high temperatures | Wide temperature non-stability |
| Performance at Low Temperatures | Excellent performance | Poor performance | Reduced performance |
| Charging Speed | Rapid charging | Slow/Rapid charging | Slowest charging |
| Discharge Rate | Rapid | Limited long-term discharge | 50% discharge limit |
| Lifespan | Longest | Shorter | Shortest |
| Flammability | Non-flammable | Flammable | Flammable |
| Recycling | Recyclable | Difficult recycling | Easy recycling |
| Safety | Highly Safe | Unsafe | Unsafe if handled improperly |
| Energy Density | Lower than Li-ion but more than Lead-acid batteries | Highest | Lowest |
| Power Density | Almost similar to Li-ion batteries | Highest | Lowest |
| Energy Efficiency | Close to 90-95% | Nearly 100% | Close to 70% |