Atomfair

Awaiting product image

Atomfair Pyrite FeS2

Description Pyrite (FeS2), also known as iron disulfide or bis(sulfanylidene)iron, is a naturally occurring mineral with a metallic luster and pale brass-yellow hue. This high-purity inorganic compound is widely utilized in research and industrial applications due to its semiconductor properties and electrochemical characteristics. With a CAS number of 1309-36-0, our premium-grade pyrite is rigorously processed to ensure minimal impurities, making it ideal for advanced material science studies, lithium-ion battery research, and catalysis investigations. Each batch undergoes strict quality control measures, including XRD and elemental analysis, to guarantee consistent composition and performance. Available in various particle sizes from coarse chunks to…

Category:
Brands:

Description

Description

Pyrite (FeS2), also known as iron disulfide or bis(sulfanylidene)iron, is a naturally occurring mineral with a metallic luster and pale brass-yellow hue. This high-purity inorganic compound is widely utilized in research and industrial applications due to its semiconductor properties and electrochemical characteristics. With a CAS number of 1309-36-0, our premium-grade pyrite is rigorously processed to ensure minimal impurities, making it ideal for advanced material science studies, lithium-ion battery research, and catalysis investigations. Each batch undergoes strict quality control measures, including XRD and elemental analysis, to guarantee consistent composition and performance. Available in various particle sizes from coarse chunks to micronized powders, this versatile material is packaged under inert conditions to prevent oxidation and preserve its intrinsic properties.

  • CAS No: 1309-36-0
  • Molecular Formula: FeS2
  • Molecular Weight: 119.98
  • Exact Mass: 119.879078
  • Monoisotopic Mass: 119.879078
  • IUPAC Name: bis(sulfanylidene)iron
  • SMILES: S=[Fe]=S
  • Synonyms: PYRITE, Iron disulfide, 12068-85-8, Iron sulfide (FeS2), 1309-36-0

Application

Pyrite serves as a cost-effective cathode material in thermal batteries due to its high energy density and thermal stability. In geochemical research, it is employed as a proxy for studying redox conditions in ancient sedimentary environments. The semiconductor properties of pyrite make it valuable in photovoltaic research for developing thin-film solar cells. Additionally, its catalytic activity is explored in heterogeneous catalysis and environmental remediation processes.

If you are interested or have any questions, please contact us at support@atomfair.com