Fullerene-C70, Purity: 98%

Fullerene-C70, Purity: 98%

Description:
Fullerene-C70 with a purity of 98% is a highly refined nanomaterial that consists of 70 carbon atoms arranged in an elongated, rugby ball-shaped structure. Its superior purity ensures minimal contamination, making it suitable for cutting-edge applications in nanotechnology, energy systems, and biomedical research. Fullerene-C70 exhibits unique electronic, optical, and chemical properties that distinguish it from other fullerene structures.

Key Features:

• Purity: 98%, ensuring negligible impurities, providing exceptional performance for advanced applications.
• Structure: Elongated spheroidal shape composed of 12 pentagons and 25 hexagons.
• Appearance: Fine dark brown to black powder or crystalline solid.

Applications:

1. Energy and Electronics:
   • Widely used in organic photovoltaics (OPVs) to enhance solar cell efficiency.
   • Key material in organic light-emitting diodes (OLEDs) and organic field-effect transistors (OFETs).
   • Improves charge storage and energy density in lithium-ion batteries and supercapacitors.
2. Biomedical Research:
   • Offers antioxidant properties, effectively neutralizing free radicals in medical studies.
   • Functionalized forms are used in targeted drug delivery systems and imaging agents.
   • Explored for photodynamic therapy in cancer treatment due to its photochemical properties.
3. Catalysis:
   • Serves as a highly efficient catalyst for various chemical reactions, such as hydrogenation and oxidation.
   • Acts as a catalyst support for industrial-scale chemical processes.
4. Advanced Materials:
   • Enhances the mechanical strength, thermal stability, and electrical conductivity of composites and polymers.
   • Applied in high-performance coatings and lubricants for reduced wear and friction.
5. Environmental Applications:
   • Effective in adsorbing organic pollutants and heavy metals for water purification systems.
   • Explored in carbon dioxide capture technologies and other environmental remediation methods.
6. Scientific Research:
   • Studied for its quantum and photophysical properties in nanotechnology and material science.
   • Used as a reference molecule in spectroscopy and as a building block for nanoscale devices.

Storage and Handling:

• Store in a cool, dry, and dark environment in tightly sealed containers to maintain stability.
• Handle with appropriate protective equipment to avoid nanoparticle exposure, inhalation, or contact with skin and eyes.