Energizing the future with

High Power Battery Material with Low Carbon Foot Print

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Powering Batteries with Graphite

Morphology of graphite allowed us to create anodes materials with a higher rate capability and energy density.

Anode Anode
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Vikram Handa

“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

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Graphite Anode Materials

Synthetic, Natural, Blended & Agglomerated Graphite

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Graphite Anode For Power & Energy Storage Applications

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Graphitic Carbon Coating

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Amorphous Carbon Coating

Properties Natural Graphite Series
Powder
Properties
D50 μm 9-13 13-17 9-13 13-17
BET m²/g <3.0 <3.0 <3.0 <3.0
Tap Density g/cc >1.0 >1.0 >1.0 >1.0
EC Data Capacity % >362 >362 >362 >362
FCE mAh/g >92.0 >92.0 >92.0 >92.0
Remarks Graphitic Carbon
Coating
Amorphous Carbon
Coating
Grade and Application-type Energy Density
High temp. application
Quick Charge
Low temp. application
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Primary

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Primary

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Secondary

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Blended

Parameter Unit Synthetic Graphite
Primary Particle Secondary Particle
      Blended
Particle size (D50) μm 9-12 13-17 13-17 11-17
Tap density g/cc >1.10 >1.2 >1.0 >1.0
Surface area m²/g <2.5 <2.0 <1.7 <2.0
Ash % <0.03 <0.03 <0.03 <0.03
Electrode density g/cc 1.55-1.65 1.57-1.63 1.55-1.65 1.55-1.65
Discharge capacity mAh/g >352 >353 >350 >350
CE % >93 >93 >93 >93
Grade-type - Quick Charge Energy Density Quick Charge Quick charge &
Energy Density
Application   ESS EV/Power Tools

Graphite Anode Manufacturing Process

Graphite Anode Manufacturing Process

Case Study

Building without emissions and manufacturing with by-products

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