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Premium C60 Buckminsterfullerene • CAS 99685-96-8

Up to 99.99% Purity — Sublimed Grade

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Manufacturing Process

From graphite to pristine C60 crystals: our 10-step precision pipeline

1

Raw Material Preparation

High-purity synthetic graphite rods (99.99% carbon, 6-12mm diameter) are precision-machined and baked at 1000°C under vacuum for 2-4 hours to remove moisture.

1000°C2-4 hrs99.99% C
2

Vacuum Chamber Setup

304 stainless steel vacuum chamber evacuated to <10&supmin;³ Torr, then backfilled with 99.999% pure helium to optimal 150 Torr operating pressure.

10&supmin;³ TorrHe 150 TorrSS 304
3

Arc Discharge (Krätschmer-Huffman)

DC arc at 150A / 20-25V creates 3000-4000°C plasma. Carbon sublimes, clusters form in helium, and C60 cages self-assemble through thermodynamic stability. The iconic truncated icosahedron closes in 10-100ms.

150A / 25V4000°C10-100ms
4

Soot Collection

Ultra-fine fullerene-containing soot (10-15% C60) scraped from cooled chamber walls. The carbon-black powder has near-zero bulk density at ~0.05 g/cm³.

10-15% C600.05 g/cm³
5

Soxhlet Extraction

24-48 hours of Soxhlet extraction with HPLC-grade toluene. Clear solvent transforms to stunning magenta-purple as C60 dissolves at 2.8 mg/mL. The signature purple is unmistakable.

24-48 hrsToluene2.8 mg/mL
6

Chromatographic Purification

Column chromatography on activated alumina separates fullerenes by polarity. The vivid purple C60 band races ahead, cleanly separated from reddish-orange C70. Like a chemical rainbow.

AluminaC60 PurpleC70 Orange
7

HPLC Final Purification

Preparative HPLC on Cosmosil Buckyprep column at 50-200 bar achieves 99.5-99.9% purity. UV detection at 330nm guides precision fraction collection.

50-200 bar330nm UV99.9%
8

Vacuum Sublimation

Triple-pass vacuum sublimation at 600°C / 10&supmin;&sup6; Torr. Molecules travel from hot to cold zone, depositing as pristine metallic-bronze crystals. Each pass removes residual solvents and C70 traces, achieving 99.95-99.99% purity.

600°C10&supmin;&sup6; Torr3 passes
9

Quality Control

Rigorous QC: MALDI-TOF confirms m/z 720.00 (C60 molecular ion). UV-Vis fingerprint at 404-408nm. HPLC area purity ≥99.95%. TGA, FTIR, XRD, and ICP-MS complete the certificate of analysis.

m/z 720404nm UVXRD
10

Argon Packaging

Sealed under 99.999% argon in amber glass vials within a controlled glove box (<1 ppm O&sub2;). Light-protected, moisture-free packaging ensures 2-5 year shelf stability.

Ar 99.999%<1 ppm O&sub2;2-5 yr shelf
Our Manufacturing Facility
Our Manufacturing Facility

Product Pricing

Competitive pricing on premium-grade C60 Buckminsterfullerene

PurityGradeCompetitor ($/kg)Our Price ($/kg)Savings
99.5%Research Grade$55,000$42,50023%
99.9%High Purity$150,000$118,00021%
99.95%Ultra-High Purity (Sublimed)$280,000$225,00020%
99.99%Premium Grade (Sublimed)$550,000$445,00019%

Applications

C60 Fullerene across 12 cutting-edge industries

Cosmetics & Skincare

Powerful antioxidant and UV protectant for premium anti-aging formulations. 172x more effective than Vitamin C.

Solar Cells & OPV

Exceptional electron acceptor in organic photovoltaics. PCBM derivatives boost solar cell efficiency to 18%+.

Lubricants & Tribology

Molecular ball bearings reduce friction by up to 90%. Nano-additive for extreme-pressure applications.

Biomedical & Pharma

Drug delivery vehicles, MRI contrast agents, and HIV protease inhibitors. Functionalized C60 crosses blood-brain barrier.

Polymer Composites

Dramatically improves tensile strength, thermal stability, and conductivity in polymer matrices.

Electronics & Semiconductors

N-type semiconductor with tunable bandgap. Used in organic FETs, photosensors, and molecular electronics.

Energy Storage

Enhanced lithium-ion battery anodes and supercapacitor electrodes. 15% capacity improvement demonstrated.

Water Treatment

Photocatalytic degradation of organic pollutants. Nanofiltration membranes with antibacterial properties.

Coatings & Surfaces

Anti-corrosion coatings, hydrophobic surfaces, and wear-resistant thin films for industrial applications.

Catalysis

Accelerates chemical reactions as a catalyst or catalyst support. Used in hydrogenation and oxidation processes.

Hydrogen Storage

Reversible hydrogen absorption at moderate conditions. Up to 7.7 wt% capacity in functionalized fullerenes.

Nuclear & Advanced

Endohedral metallofullerenes for nuclear medicine. Radiation-resistant materials for aerospace and defense.

Material Safety Data Sheet

CAS 99685-96-8 • Buckminsterfullerene C60

Identification

Product NameBuckminsterfullerene (C60)
CAS Number99685-96-8
Molecular FormulaC60
Molecular Weight720.66 g/mol
EC Number603-078-5

GHS Classification

GHS02
Flame
GHS07
Excl.
H228Flammable solid
H315Causes skin irritation
H319Causes serious eye irritation
H335May cause respiratory irritation

Physical Properties

AppearanceDark brown to black powder / metallic-bronze crystals
OdorOdorless
Melting Point>600°C (sublimes)
Density1.65 g/cm³
Solubility (Toluene)2.8 mg/mL
Solubility (Water)Insoluble

PPE & Storage

RespiratoryN95/P100 respirator or fume hood
Eye ProtectionChemical splash goggles
GlovesNitrile or neoprene
StorageCool, dry, dark place. Inert atmosphere (Ar/N2). Amber glass. 15-25°C
IncompatibleStrong oxidizers, alkali metals, open flames

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