Glassy Carbon Foam is a highly porous, lightweight, and conductive material widely used in battery and supercapacitor research. With a purity of 95+%, this advanced material combines the mechanical strength of glassy carbon with an open-cell foam structure, making it an ideal choice for energy storage applications, electrochemical catalysis, and thermal management systems.
Due to its high surface area, chemical stability, and excellent electrical conductivity, Glassy Carbon Foam significantly enhances charge transport efficiency, improves ion diffusion, and provides long-lasting durability in lithium-ion batteries, fuel cells, and supercapacitors. Its unique pore structure enables superior electrochemical performance, making it a preferred material for cutting-edge energy storage technologies.
Key Features:
✅ High Purity (95+%) Glassy Carbon – Ensures minimal impurities for high-performance applications.
✅ Porous Open-Cell Structure – Enhances surface area and charge transport.
✅ Exceptional Electrical Conductivity – Ideal for supercapacitors and advanced battery designs.
✅ Lightweight & Mechanically Strong – Provides stability while minimizing weight.
✅ High Thermal & Chemical Stability – Suitable for extreme conditions in energy applications.
✅ Low Density & Corrosion-Resistant – Ensures long-term performance in harsh environments.
Applications:
🔹 Lithium-Ion & Solid-State Batteries – Used as a high-performance electrode material.
🔹 Supercapacitors & Energy Storage Devices – Enhances power density and charge retention.
🔹 Fuel Cells & Electrochemical Catalysis – Improves reaction efficiency and conductivity.
🔹 Thermal & Electrical Conductive Substrates – Applied in heat dissipation systems.
🔹 Biomedical & Sensor Applications – Utilized in advanced medical and biosensor research.
This high-purity Glassy Carbon Foam is a crucial material for next-generation energy storage, catalysis, and electrochemical research, offering exceptional conductivity, durability, and stability for advanced scientific and industrial applications.
