High Purity C70 powder Best Price 99.9% Fullerene CAS 115383-22-7 C70 Footballene Powder/C60 Fullerene Powder/ C60

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Quick Details
CAS No.:
Other Names:
Fullerene C70
Place of Origin:
Pharmaceutical Intermediates
Brand Name:
Wuhan Hengheda
Model Number:
Black powder
BLACK Fullerene C70
Fullerene C70
Aluminum Foil Bag
Cool Dried Storage
Powdery Fullerene C70
Wuhan HHD
Grade Standard:
Pharmaceutical grade
1G C70 Fullerene powder
Shelf life:
2 Years Proper Storage
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Packaging Details
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Quantity(Grams) 1 - 10 >10
Est. Time(days) 5 To be negotiated


 high purity 99.5%99.9% Fullerene C70 powder  cas 115383-22-7  C70 FOOTBALLENE powder

C70 fullerene
Preferred IUPAC name
Other names
Fullerene-C70, rugbyballene
3D model (JSmol)
ECHA InfoCard100.162.223
PubChem CID
Molar mass840.770 g·mol−1
AppearanceDark needle-like crystals
Density1.7 g/cm3
Melting pointsublimates at ~850 °C [2]
insoluble in water
Band gap1.77 eV[1]

C70 fullerene is the fullerene molecule consisting of 70 carbon atoms. It is a cage-like fused-ring structure which resembles a rugby ball, made of 25 hexagons and 12 pentagons, with a carbon atom at the vertices of each polygon and a bond along each polygon edge. A related fullerene molecule, named buckminsterfullerene (C60 fullerene), consists of 60 carbon atoms.

It was first intentionally prepared in 1985 by Harold KrotoJames R. Heath, Sean O'Brien, Robert Curl and Richard Smalley at Rice University. Kroto, Curl and Smalley were awarded the 1996 Nobel Prize in Chemistry for their roles in the discovery of cage-like fullerenes. The name is a homage to Buckminster Fuller, whose geodesic domes these molecules resemble.


1.   Fullerene C70 powder/Carbon 70 can be used as Diagnostic reagents,
2.  Fullerene C70 powder/Carbon 70 can be used as Super drugs, 
3.  Fullerene C70 powder/Carbon 70 can be used as Cosmetics, 
4.  Fullerene C70 powder/Carbon 70 can be used as Solar battery, 
5.  Fullerene C70 powder/Carbon 70 can be used as Wear resistant material,
6.  Fullerene C70 powder/Carbon 70 can be used as Flame retardant materials,
7.  Fullerene C70 powder/Carbon 70 can be used as Lubricants, polymer additives,
8.  Fullerene C70 powder/Carbon 70 can be used as Artificial diamond, hard alloy,
9.  Fullerene C70 powder/Carbon 70 can be used as Electric viscous fluid,
10. Fullerene C70 powder/Carbon 70 can be used as Fire retardant coatings,
11. Semiconductor record medium, 
12. Superconducting materials, 
13. Fullerene C70 powder/Carbon 70 can be used as Transistors, 
14. Fullerene C70 powder/ C60 can be used as Electronic camera, fluorescence display tube,
15. Fullerene C70 powder/ C60 can be used as Gas adsorption, gas storage.


Carbon Fullerenes C70 are the third allotropic form of carbon material (after graphite and diamond). Fullerenes composed of less than 300 carbon atoms (endohedral fullerenes) are commonly known as “buckyballs”. The carbon fullernes C70 molecule can undergo a wide range of novel chemical reactions. It readily accepts and donates electrons.

Carbon Fullerenes C70 are a series of hollow carbon molecules that form a closed cage. They are isolated by proprietary methods from the mixed extract (typically <80% C70) of carbon soot produced by a carbon arc operated under a sub-atmospheric helium environment.  HPLC analysis is included with sample and indicates the presence of all fullerenes including parent oxides.  Samples are vacuum-dried to remove residual solvent.  Typically, the hydrocarbon content is <0.5%. Pure sublimed crystalline powders and thin films are available to meet the  stringent absolute purity requirements for solid-state research.  Hydrocarbon content typically <0.01%

Fullerenes are the third allotropic form of carbon material after graphite and diamond. These were discovered in 1985 by Harold. W. Kroto, Robert F. Curl and Richard E. Smalley. Fullerenes consist of 20 hexagonal and 12 pentagonal rings as the basis of an icosohedral symmetry closed cage structure. Each carbon atom is bonded to three others and is sp 2 hybridized. The C70 molecule has two bond lengths, the 6:6 ring bonds can be considered “double bonds” and are shorter than the 6:5 bonds. C 70 is not “superaromatic” as it tends to avoid double bonds in the pentagonal rings, resulting in poor electron delocalisation. As a result, C70 behaves like an electron deficient alkenes and reacts readily with electron rich species. The geodesic and electronic bonding factors in the structure account for the stability of the molecule. Fullerenes can be used as organic photovoltaics(OPV), these are powerful antioxidants, reacting readily and at a high rate with free radicals which are often the cause of cell damage or death. Other uses of C70 like catalysts, in water purification and biohazard protection, portable power, vehicles and medical.







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 For research use only!