C
C
C
C₆
C₆H₆
Li⁺
e⁻
Efficient Carbons
Energy Storage Materials
Advanced carbon materials for next-generation battery applications with superior coulombic efficiency and cycle stability. Two proprietary solutions enabling breakthrough energy storage performance.
3
Carbon Grades
99.95%
Ultra-Pure
13,000t
Annual Capacity
5,000+
Cycle Life
Energy Storage Portfolio
Next-generation carbon materials engineered for superior battery performance across lithium-ion and sodium-ion technologies.
C
SPG-15E
C
HCG-080
Performance Comparison
| Material | Particle Size | Efficiency | Application |
|---|---|---|---|
| SPG-15E | D50 15 μm | ≥92% | Li-ion batteries |
| HCG-080 | D50 8 μm | ≥88% | Na-ion batteries |
| SPG-HD15™ | D50 15 μm | ≥92% | Li-ion batteries |
Powering the Energy Transition
Advanced carbon materials enabling the next generation of energy storage technologies.
Electric Vehicles
High-capacity battery anodes enabling longer range and faster charging.
• Extended driving range
• Fast charging capability
• Superior cycle life
Grid Storage
Large-scale energy storage systems for renewable energy integration.
• Grid stabilization
• Peak shaving
• Renewable integration
Consumer Electronics
High-performance batteries for smartphones, laptops, and wearables.
• Extended battery life
• Rapid charging
• Compact design
Advanced Manufacturing
Precision-engineered carbon materials with optimized particle size and surface chemistry.
15μm
Optimal particle size
≥92%
First cycle efficiency
5,000+
Cycle stability
8,000t
Annual capacity