Fullerene-C70, Purity: 96%

Fullerene-C70, Purity: 96%

Description:
Fullerene-C70 with a purity of 96% is a refined form of the C70 molecule, characterized by its elongated, rugby ball-shaped structure of 70 carbon atoms. The higher purity level ensures reduced impurities, enhancing its suitability for applications in advanced materials, energy solutions, and biomedical research. Fullerene-C70 offers unique optical, electronic, and chemical properties distinct from its smaller counterpart, C60.

Key Features:

• Purity: 96%, providing improved performance due to lower levels of contaminants.
• Structure: Contains 12 pentagons and 25 hexagons arranged in an elongated spheroidal shape.
• Appearance: Dark brown to black crystalline powder.

Applications:

1. Energy and Electronics:
   • Utilized as an electron acceptor in organic photovoltaics (OPVs) for efficient solar energy conversion.
   • Plays a key role in organic light-emitting diodes (OLEDs) and organic field-effect transistors (OFETs).
   • Enhances the energy density and charge storage capacity of lithium-ion batteries and supercapacitors.
2. Biomedical Applications:
   • Exhibits antioxidant properties, offering potential in mitigating oxidative stress in medical research.
   • Functionalized derivatives are used in drug delivery systems for targeted therapies.
   • Explored for photodynamic therapy applications, particularly in cancer treatments.
3. Catalysis:
   • Acts as a catalyst for a variety of organic chemical reactions, including oxidation and polymerization.
   • Serves as a highly efficient catalyst support for industrial chemical processes.
4. Advanced Materials Development:
   • Improves thermal stability, mechanical strength, and electrical conductivity when incorporated into polymers and composites.
   • Used in high-performance lubricants and coatings for enhanced durability and reduced friction.
5. Environmental Applications:
   • Effective in adsorbing organic pollutants and heavy metals for water purification systems.
   • Explored for carbon dioxide capture and other environmental remediation efforts.
6. Scientific Research:
   • Studied for its photophysical and quantum properties in advanced material science.
   • Used in spectroscopy as a reference molecule and as a building block for nanostructures.

Storage and Handling:

• Store in a sealed container in a cool, dry, and dark environment to preserve quality.
• Handle with protective equipment to avoid inhalation or contact with skin and eyes.