Products & Applications
Advanced Carbon Materials for Critical Industries
KREEM develops high-performance carbon and graphite materials that power the world's most innovative industries.
Supercapacitor-Grade Activated Carbon
Produced through a specialized activation process, this activated carbon possesses extremely high surface area and porosity, making it ideal for energy storage applications.
Applications:
- Used primarily in supercapacitors and ultracapacitors where high energy density and rapid charging/discharging are crucial.
Benefits:
- Enhances the performance and longevity of supercapacitors, offering faster charging capabilities and greater energy efficiency in a compact form factor.
Our Solutions:
- Supercapacitor-Grade Activated Carbon
- Ultracapacitor Carbon Materials
- High-Energy-Density Activated Carbon
Hard Carbon
Hard carbon is an amorphous carbon material known for its structural rigidity and excellent stability under high temperatures.
Applications:
- Ideal for anode materials in sodium-ion batteries and as a conductive additive in various battery technologies.
Benefits:
- Provides high capacity and excellent cycling stability, extending the life and performance of batteries.
Our Solutions:
- Hard Carbon for Sodium-Ion Batteries
- Conductive Additives for Battery Technologies
Soft Carbon
Soft carbon materials are known for their layered structure, which provides excellent conductivity and lithium-ion intercalation properties.
Applications:
- Commonly used in lithium-ion battery anodes due to their ability to facilitate rapid charging and high energy retention.
Benefits:
- Offers quick charge capabilities and a longer cycle life, making it suitable for high-performance energy storage applications.
Our Solutions:
- Soft Carbon for Lithium-Ion Battery Anodes
- High-Conductivity Soft Carbon Materials
Carbon Nanotubes (CNTs)
Consisting of cylindrical carbon molecules with exceptional mechanical, electrical, and thermal properties.
Applications:
- Used in polymer composites, energy storage devices, and electronics due to their strength and conductivity.
Benefits:
- Strengthens materials without adding significant weight, improves electrical conductivity, and enhances thermal dissipation.
Our Solutions:
- Carbon Nanotubes for Polymer Composites
- CNT-Based Energy Storage Materials
- High-Performance CNT Additives
Natural Graphite Anodes
Sourced directly from mining and processed for purity, natural graphite is used for its excellent electrical conductivity and thermal stability.
Applications:
- Primarily used in lithium-ion batteries as anode material due to its ability to host lithium ions.
Benefits:
- Provides long battery life and stability, making it ideal for consumer electronics and electric vehicles.
Our Solutions:
- High-Purity Natural Graphite Anodes
- Processed Natural Graphite for Batteries
Synthetic Graphite Anodes
Manufactured through a synthetic process that allows for precise control over the material's properties.
Applications:
- Also used in lithium-ion batteries, particularly where higher performance standards are required.
Benefits:
- Offers higher purity than natural graphite, which results in better battery performance, including higher charge capacities and faster charging times.
Our Solutions:
- High-Performance Synthetic Graphite
- Battery-Grade Synthetic Graphite Anodes
Graphite-Coated Heat Sinks
These are heat sinks coated with a layer of graphite to improve thermal management.
Applications:
- Widely used in electronic devices and computers to dissipate heat and maintain optimal operating temperatures.
Benefits:
- The graphite coating significantly enhances the heat dissipation capacity, which can improve the efficiency and lifespan of electronic components.
Our Solutions:
- Graphite-Coated Heat Sinks
- Graphite Thermal Interface Materials
- Carbon-Based Heat Spreaders
Material Showcase
Our advanced carbon materials are engineered for exceptional performance
Our battery-grade graphite achieves 99.9%+ purity, ensuring optimal performance in energy storage applications.
Our specialized CNTs provide exceptional thermal conductivity and mechanical strength for advanced applications.
High-surface-area activated carbon for energy storage and environmental applications with superior adsorption properties.
Ready to Transform Your Industry?
Discover how KREEM's advanced carbon materials can power your next breakthrough.
Contact Our Team