Graphene-Enhanced Polymer Cathode & Anode Materials

Powering the next generation of lithium energy storage.
Graphenodes™ integrates advanced graphene–polymer composites into lithium iron phosphate (LiFePO₄) cell architecture, delivering superior electrical performance, longer cycle life, and higher energy density—without major changes in manufacturing.

Application

Graphenodes™ is applied as a high-performance conductive additive in LiFePO₄ (LFP) cathode and anode formulations.
Its proprietary graphene-polymer blend forms a highly conductive, thermally stable network within the electrode matrix—unlocking greater charge efficiency and higher output capacity.

Key Benefits

⚡ Superior Electrical Conductivity

• Strengthens the conductivity pathways of the LFP cathode matrix

• Reduces internal resistance and improves overall charge mobility

🚀 Faster Charge/Discharge Rates (15–25% Boost)

• Enables quicker electron transport

• Maintains stability even under high C-rate cycles

🔥 Better Thermal Management & Longer Battery Life

• Graphene’s high thermal conductivity helps dissipate heat

• Enhances structural integrity and slows degradation

🔋 Higher Energy Density with Lower Material Loss

• Improves active material utilisation

• Supports more efficient cell chemistry with minimal redesign

Cost–Benefit Analysis

Result: A small material cost increase delivers significant performance uplift, enabling higher-capacity cells, improved durability, and better $/Wh economics.

Why Graphenodes™?

Graphenodes™ delivers measurable, production-ready improvements for energy storage manufacturers seeking stronger performance without reengineering their battery lines. Our graphene-polymer technology integrates seamlessly into existing slurry processes and electrode formulations—making it one of the most cost-efficient upgrades for LFP-based systems.