Powering Batteries with Graphite
It is a major component in the battery. The engineered graphite allowed researchers to create anodes with a higher rate capability and energy density 42% of all battery anode material is sourced from natural graphite flakes, 58% from synthetic graphite material. The demand for graphite is set to increase by over 200% in the next four years.
“Lowering battery costs is crucial in making electric
cars more
affordable
since the battery pack accounts for half of the purchase
expense, with the
cells making up 70% of the cost, the graphite
anode 15%.”
Vikram Handa
Founder & Managing Director
Crafting Diverse Anode Graphite
Synthetic, Natural, Blended & Agglomerated Graphite Innovations with Special Epsilon Advantage
High Perfomance
Unleashing the full potential with our optimized anode materials, amplifying battery efficiency and performance.
High Capacity
Out battery Material Offers High Capacity in the range of 350-360 mAh/g with respect to minimum EV grade anode requirements of 345-350 mAh/g.
High Quality
Extensive testing is conducted on our anode material to guarantee its excellent quality for reliable, durable, and safe batteries.
Longer Life Cycle
Our battery material which will be used in LIB are designed to last longer and low self discharge.
Fast Charging
Powering up devices with our material’s fast-charging capabilities, maximum output with minimum input.
Value Driven
Proprietary, advanced, and sustainable processes, sourcing locally while supplying globally, ensures exceptional value.
Greenest Materials
Powering industry with our greenest materials, making a substantial ~78% reduction in global warming potential (GWP) compared to competitors.
Graphite Anode For Power & Energy Storage Applications
EAG 915
- Discharge capacity: 354±2 mAh/g
- FCE :>93%
- Particle size (D50): 16±2 µm
EAG915C
- Discharge capacity: 352±2 mAh/g
- FCE: ≥93
- Particle size (D50): 15±2 µm
EGNG10
- Discharge capacity: 366±2 mAh/g
- FCE: >92 %
- Particle size (D50): 10±2 µm
ESNG10
- Discharge capacity: 359±3 mAh/g
- FCE: >93%
- Particle size (D50): 10±2 µm
EMAG15
- Discharge capacity: 353±2 mAh/g
- FCE: >93%
- Particle size (D50): 14±2 µm
EMG10
- Discharge capacity: 357±2 mAh/g
- FCE: >93%
- Particle size (D50): 10±2 µm
EMG15
- Discharge capacity: 358±2 mAh/g
- FCE: >93%
- Particle size (D50): 15±2 µm
EGNG15
- Discharge capacity: 366±2 mAh/g
- FCE: >92%
- Particle size (D50): 15±2 µm
ESNG15
- Discharge capacity: 360±3 mAh/g
- FCE: >93%
- Particle size (D50): 15±2 µm
Graphite Anode Manufacturing Process
Case Study
Building without emissions and manufacturing with by-products
