Fullerene C60

Fullerene C60 Basic information
Description Uses References
Product Name:Fullerene C60
Synonyms:FULLERENE;FULLERENE;FULLERENE;Fullerene ,99.5%;Fullerene, C_6_0, 99.5+%;[5,6]FULLERENE-C60;SOOCERBALLENE;Fulleren C60
CAS:99685-96-8
MF:C60
MW:720.64
EINECS:205-105-7
Product Categories:olde Materials;OTFT/OFET/OPV Materials;metal or element;C60 & C70;Organic Semiconducting Materials;Functional Materials;99685-96-8
Mol File:99685-96-8.mol
Fullerene C60 Structure
Fullerene C60 Chemical Properties
Melting point >280 °C(lit.)
Boiling point 500-600℃ subl.
density 5.568
RTECS LS9252500
Fp 94 °C
storage temp. Keep in dark place,Inert atmosphere,Room temperature
solubility organic solvents: soluble
form sublimed
color Dark brown to black
Water Solubility Soluble in toluene. Insoluble in water.
Merck 14,1462
BRN 5901022
Stability:Stable. Highly flammable. Incompatible with strong oxidizing agents.
InChIKeyXMWRBQBLMFGWIX-UHFFFAOYSA-N
LogP5.800 (est)
EPA Substance Registry System[5,6]Fullerene-C60-Ih (99685-96-8)
Safety Information
Hazard Codes Xi
Risk Statements 36/37
Safety Statements 26-36
RIDADR UN1325
WGK Germany 3
HazardClass 4.1
PackingGroup III
HS Code 28030000
MSDS Information
ProviderLanguage
ACROS English
SigmaAldrich English
ALFA English
Fullerene C60 Usage And Synthesis
DescriptionFullerenes are molecules that composed entirely of carbon. They are similar in structure to graphite, which is composed of a sheet of linked hexagonal and pentagonal rings that prevent the sheet from being planar. Each carbon atom on the surface of fullerenes is bonded to three carbon neighbors, therefore, is sp2 hybridized. Fullerenes are in the form of a hollow sphere, ellipsoid, tube, and many other shapes.  Spherical fullerenes C60, the first fullerene molecule manufactured in 1985, is named as buckminsterfullerene, resembles the balls used in football. Cylindrical fullerenes are known as carbon nanotubes (CNTs). As the discovery of fullerenes came after buckminsterfullerene, the shortened name “fullerene” is used to refer to the family of fullerenes, of which each carbon atom is covalently bonded to three others.
The most specific feature of fullerenes is that they are excellent electron acceptors (n-type semiconductors), which are suitable for organic electronic materials with electron carriers. Fullerenes can be used to fabricate polymer/fullerene blend for organic photovoltaics, in which fullerene acts as the n-type semiconductor. Fullerenes are powerful antioxidants, which react readily and at a high rate with free radicals. These free radicals usually lead to cell damage or death. Therefore, fullerenes show great promise in health and personal care applications, in which the prevention of oxidative cell damage or death is desirable. Fullerenes are also used in non-physiological applications, where oxidation and radical processes are destructive (food spoilage, plastics deterioration, metal corrosion). Research interests on fullerenes include also the use of fullerenes to control the neurological damage of diseases such as Alzheimer’s disease and Lou Gehrig’s disease. Fullerenes are used as additives for polymers to create copolymers or composites with specific physical and mechanical properties. Fullerenes can be doped with rubidium and cesium to fabricate superconductors with electron carriers, of which the superconducting transitions occur at more than 30 K.
UsesHigh purity carbon 60 fullerenes for use in thermal evaporation systems as either electron acceptors, n-type semiconductors or interface layers.
References[1] K. Tanigaki, T. W. Ebbesen, S. Saito, J. Mizuki, J. S. Tsai, Kubo & S. Kuroshima (1991) Superconductivity at 33 K in CsxRbyC60, Nature, 352, 222-223
[2] https://en.wikipedia.org/wiki/Fullerene
[3] B. C. Yadav, Ritesh Kumar (2008) Structure, properties and applications of fullerenes, International Journal of Nanotechnology and Applications, 2, 15-24

DescriptionFullerene C60 is a molecule with prominent electron acceptor property composed of 60 carbons in the shape of a hollow football with 20 hexagons and 12 pentagons. Fullerene is unsaturated, each carbon connecting to 3 other carbons instead of 4 with fused 5 and 6 membered rings.
Chemical Propertiesblack to brown crystalline powder
Uses Fullerene C60 powder is useful for biomedical applications such as the design of high-performance MRI contrast agents, x-ray imaging contrast agents and photodynamic therapy. It is also essential for single-walled carbon nanotubes with narrow diameter-distribution. It is used as light-activated antimicrobial agent. It also finds application in the field of nanotechnology, heat resistance and superconductivity.
DefinitionChEBI: Fullerene C60 is a fullerene. It has a role as a geroprotector. It is a polyhedral CARBON structure composed of around 60-80 carbon atoms in pentagon and hexagon configuration. They are named after Buckminster Fuller because of structural resemblance to geodesic domes. Fullerenes can be made in high temperature such as arc discharge in an inert atmosphere.
General DescriptionThis product has been enhanced for energy efficiency.
Fullerene C60 Preparation Products And Raw materials
Raw materials[5,6]Fulleride(2-)-C60-Ih
Fullerene Derivative FULLERENE, NANOTUBE, MULTI-WALLED, 20-50 NM OD, 5-20 MICRON LONG FULLERENE CARBON SOOT,FULLERENE SOOT FULLERENE C60 FULLERENE EXTRACT MIXED C60+C70 FULLERENE SOOT AS PRODUCED FULLERENE CARBON 78, 95.0%,FULLERENE C78 FULLERENE MIX (C60/C70) FULLERENE, BUCKYTUBE/NANOTUBE, SINGLE WALLED FULLERENE C70 FULLERENE, NANOTUBE, MULTI-WALLED, AS-PRODUCED CATHODE DEPOSITS, CORE AND SHELL FULLERENE SOOT, AS PRODUCED FULLERENE, BUCKYTUBE/NANOTUBE, MULTI-WALLED, GROUND CORE, 3-24NM OD, 0.5-5 MICRON LONG, 60+% (BY AREA) FULLERENE CARBON 84, 99.0+ %, PURIFIED,FULLERENE CARBON 84, 95.0+ %, REAGENT,FULLERENE-C84 FULLERENE C76,FULLERENE C76, 95.0%,FULLERENE C76, 99.9%,FULLERENE C76, MIN. 98% AZIRIDINOó2',3':1,2]ó60]FULLERENE, FULLERENE POWDER, MIXED, 2-12% C70 FULLERENE, BUCKYTUBE/NANOTUBE, DOUBLE-WALLED Carbon 60

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