Fullerene-C70, Purity: 95%
Description:
Fullerene-C70 with a purity of 95% is a nanomaterial composed of 70 carbon atoms arranged in an elongated, rugby ball-shaped structure. This molecule belongs to the fullerene family and exhibits unique chemical, optical, and electronic properties. With a slightly higher aspect ratio than C60, Fullerene-C70 offers distinctive properties suitable for specialized applications in research, energy, and materials science.
Key Features:
- Purity: 95%, containing minimal impurities (typically C60 or other carbon-based molecules).
- Structure: Composed of 12 pentagons and 25 hexagons, forming a stable elongated spheroidal shape.
- Appearance: Fine dark brown to black powder or crystalline solid.
Applications:
- Energy and Optoelectronics:
- Used as an electron acceptor in organic photovoltaics (OPVs), enhancing energy conversion efficiency.
- Plays a role in organic light-emitting diodes (OLEDs) and organic field-effect transistors (OFETs).
- Improves the performance of lithium-ion batteries and supercapacitors due to its high electron affinity.
- Biomedical Research:
- Investigated for its antioxidant properties, capable of neutralizing reactive oxygen species (ROS).
- Functionalized derivatives are used in drug delivery systems and as potential antiviral agents.
- Explored for photodynamic therapy applications in treating certain cancers.
- Catalysis:
- Acts as a catalyst in organic reactions, including oxidation and hydrogenation.
- Serves as a catalyst support for industrial-scale chemical processes.
- Advanced Materials:
- Enhances the mechanical strength, thermal stability, and conductivity of composite materials.
- Used in lubricants and coatings for improved wear resistance and friction reduction.
- Environmental Applications:
- Utilized in water purification systems for removing organic pollutants and heavy metals.
- Explored as a potential material for CO₂ capture and environmental remediation.
- Scientific Research:
- Studied extensively for its quantum and photophysical properties.
- Used as a reference material in spectroscopy and advanced material design.
Storage and Handling:
- Store in a cool, dry, and ventilated environment away from moisture and light.
- Handle with care using personal protective equipment to avoid exposure.
