Enhancing Conductivity, Stability, and Electrochemical Performance
Our advanced conductive additives are specifically engineered to improve the electronic conductivity of electrode materials in lithium-ion batteries, supercapacitors, fuel cells, and other energy storage systems. Available in various carbon-based forms including graphene, carbon nanotubes (CNTs), and carbon black composites, these additives ensure optimized percolation networks, reduced internal resistance, and extended battery lifespan.
Key Features
High Electrical Conductivity: Facilitates efficient electron transport in electrode matrix.
Low Loading, High Efficiency: As little as 0.1–1 wt% can significantly enhance performance.
Stable Dispersibility: Easily integrates into electrode slurry with water- or solvent-based systems.
Thermal Stability: Operates reliably across a wide temperature range.
Custom Formulations: Graphene/CNT hybrid powders or water dispersions tailored to your needs.
Typical Technical Specifications
| Parameter | Value Range |
|---|---|
| Material Types | Graphene, rGO, CNTs, Carbon Black |
| BET Surface Area | 120–700 m²/g |
| Particle Size | 0.5–20 μm (customizable) |
| Electrical Conductivity | Up to 10³ S/m (depending on type) |
| Purity | > 99% |
| Dispersibility | Aqueous / NMP / Organic solvents |
| Recommended Loading Ratio | 0.1–3 wt% |
Custom grades for lithium-ion battery cathodes/anodes, supercapacitors, and LFP systems available.
Applications
Lithium-ion batteries (NCM, LFP, NCA cathodes)
Supercapacitors (EDLC, hybrid)
Fuel cells & flow batteries
Sodium-ion and next-gen batteries
High-performance conductive coatings
Why Choose Our Additives?
Our conductive additives are developed with a focus on low dosage, high efficacy, and compatibility with mass production. We collaborate with battery manufacturers, R&D labs, and system integrators to deliver optimized solutions that support faster charging, longer cycle life, and safer thermal performance.
Ready to Optimize Your Electrodes?
Reach out today to request technical data, samples, or discuss a tailored conductive additive solution for your battery or energy storage application.