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Iron sulfide - 99.9% trace metals basis, high purity , CAS No.12068-85-8

6 Citations
  • ≥99.9% metals basis
In stock
Item Number
I302622
Grouped product items
SKUSizeAvailabilityPrice Qty
I302622-200mg
200mg
3
$10.90
I302622-1g
1g
3
$38.90
I302622-5g
5g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$69.90
I302622-25g
25g
Available within 8-12 weeks(?)
Production requires sourcing of materials. We appreciate your patience and understanding.
$183.90
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Chalcogenides (4)

Basic Description

SynonymsPyrite, naturally occurring mineral, grains, approximately 0.06-0.19in | Pyrite (FeS2) | Ferric Disulfide | MFCD00064690 | bis(sulfanylidene)iron | EINECS 215-167-7 | Irondisulfide(Ironpyrite) | Iron disulfide | Iron(II) disulfide (isometric) | AKOS015915
Specifications & Purity≥99.9% metals basis
Storage TempRoom temperature,Argon charged,Desiccated
Shipped InNormal

Product Properties

Excitation and Emision Ranges1171℃

Names and Identifiers

Pubchem Sid504752590
Pubchem Sid Urlhttps://pubchem.ncbi.nlm.nih.gov/substance/504752590
IUPAC Name bis(sulfanylidene)iron
INCHI InChI=1S/Fe.2S
InChi Key NFMAZVUSKIJEIH-UHFFFAOYSA-N
Canonical SMILES S=[Fe]=S
Isomeric SMILES S=[Fe]=S
PubChem CID 14788
Molecular Weight 119.98

Certificates(CoA,COO,BSE/TSE and Analysis Chart)

C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:

Find and download the COA for your product by matching the lot number on the packaging.

21 results found

Lot NumberCertificate TypeDateItem
F2518429Certificate of AnalysisMay 24, 2025 I302622
F2518430Certificate of AnalysisMay 24, 2025 I302622
F2518431Certificate of AnalysisMay 24, 2025 I302622
A2517290Certificate of AnalysisJan 06, 2025 I302622
A2517292Certificate of AnalysisJan 06, 2025 I302622
B2226035Certificate of AnalysisDec 05, 2024 I302622
G2431259Certificate of AnalysisJul 18, 2024 I302622
G2431260Certificate of AnalysisJul 18, 2024 I302622
G2431261Certificate of AnalysisJul 18, 2024 I302622
G2431258Certificate of AnalysisJul 18, 2024 I302622
G2431257Certificate of AnalysisJul 18, 2024 I302622
L22081045Certificate of AnalysisOct 24, 2022 I302622
L22081026Certificate of AnalysisOct 24, 2022 I302622
L22081040Certificate of AnalysisOct 24, 2022 I302622
B2226062Certificate of AnalysisFeb 14, 2022 I302622
B2226008Certificate of AnalysisFeb 14, 2022 I302622
C2419020Certificate of AnalysisFeb 14, 2022 I302622
B2226027Certificate of AnalysisFeb 14, 2022 I302622
B2226040Certificate of AnalysisFeb 14, 2022 I302622
E2430026Certificate of AnalysisFeb 14, 2022 I302622
B2226060Certificate of AnalysisFeb 14, 2022 I302622

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Chemical and Physical Properties

SolubilityInsoluble in water.
SensitivityMoisture sensitive.
Melt Point(°C)450 °C(lit.)
Molecular Weight119.980 g/mol
XLogP3
Hydrogen Bond Donor Count0
Hydrogen Bond Acceptor Count2
Rotatable Bond Count0
Exact Mass119.879 Da
Monoisotopic Mass119.879 Da
Topological Polar Surface Area64.200 Ų
Heavy Atom Count3
Formal Charge0
Complexity18.300
Isotope Atom Count0
Defined Atom Stereocenter Count0
Undefined Atom Stereocenter Count0
Defined Bond Stereocenter Count0
Undefined Bond Stereocenter Count0
The total count of all stereochemical bonds0
Covalently-Bonded Unit Count1

Safety and Hazards(GHS)

Pictogram(s) GHS08,   GHS09,   GHS07
Signal Danger
Hazard Statements

H317:May cause an allergic skin reaction

H334:May cause allergy or asthma symptoms or breathing difficulties if inhaled

H400:Very toxic to aquatic life

H410:Very toxic to aquatic life with long lasting effects

Specifications

X-Ray DiffractionConforms to structure
ICP: Confirms Iron ComponentConfirmed
Assay99.9-100(%)

 Specification Sheet

Alternative Products

  1. Pyrite, naturally occurring mineral, grains,
    Pyrite, naturally occurring mineral, grains,
    • About 1.5-4.8mm

    Starting at $99.90

Citations of This Product

How to Cite Aladdin Scientific Products?
1. Xiaokun Liu, Lian Zhang, Rui Shen, Qihong Lu, Qinglu Zeng, Xiaojun Zhang, Zhili He, Simona Rossetti, Shanquan Wang.  (2023)  Reciprocal Interactions of Abiotic and Biotic Dechlorination of Chloroethenes in Soil.  ENVIRONMENTAL SCIENCE & TECHNOLOGY,    (12):   [PMID:37665676] [10.1021/acs.est.3c04262]
2. Juntao Guo, Yihui Zhang, Jinjun Li, Feng Wu, Liting Luo.  (2023)  Molecular Oxygen Activation by Citric Acid Boosted Pyrite–Photo–Fenton Process for Degradation of PPCPs in Water.  MOLECULES,  28  (2): (607).  [PMID:36677664] [10.3390/molecules28020607]
3. Chen Wang, Mingjie Huang, Wentao Hu, Wei Xiang, Tao Zhou, Juan Mao, Feixiang Zan, Xiaohui Wu.  (2023)  Nanoconfined oxygen vacancies assisted highly efficient and selective Cr(VI) removal in high salinity industrial wastewaters.  CHEMICAL ENGINEERING JOURNAL,  456  (141155).  [PMID:] [10.1016/j.cej.2022.141155]
4. Lv Wei, Zhao Shiqing, Elliott Richard, Lv Xuewei, Barati Mansoor.  (2020)  Influence of Ferrous Sulfide on Carbothermic Reduction of Panzhihua Ilmenite Concentrate.  JOM,  72  (10): (3393-3400).  [PMID:] [10.1007/s11837-020-04295-1]
5. Xuemeng Li, Chongdai Luo, Quanying Fu, Cuiping Zhou, Marina Ruelas, Yingshuting Wang, Jinxu He, Yangyang Wang, Yu Shrike Zhang, Jianhua Zhou.  (2020)  A Transparent, Wearable Fluorescent Mouthguard for High-Sensitive Visualization and Accurate Localization of Hidden Dental Lesion Sites.  ADVANCED MATERIALS,  32  (21): (2000060).  [PMID:32240566] [10.1002/adma.202000060]
6. Yiqun Chen, Yang Tong, Yingwen Xue, Zizheng Liu, Min Tang, Li-Zhi Huang, Senlin Shao, Zheng Fang.  (2020)  Degradation of the β-blocker propranolol by sulfite activation using FeS.  CHEMICAL ENGINEERING JOURNAL,  385  (123884).  [PMID:] [10.1016/j.cej.2019.123884]
7. Sun Hu, You Mengyu, Hou Yanrui, Luo Jun, Rao Mingjun, Han Guihong, Li Guanghui.  (2024)  Molybdates Formation Pathways and Their Roles on Thermal Oxidation of Molybdenite Concentrates.  METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE,  55  (6): (5221-5234).  [PMID:] [10.1007/s11663-024-03340-7]
8. Guonan Zhao, Ke Feng.  (2025)  Ultraviolet-enhanced Fe0-activated H2O2 process for the removal of refractory organic matter from landfill leachate: Performance and mechanism.  WATER ENVIRONMENT RESEARCH,  97  (2): (e70022).  [PMID:39901518] [10.1002/wer.70022]

References

1. Xiaokun Liu, Lian Zhang, Rui Shen, Qihong Lu, Qinglu Zeng, Xiaojun Zhang, Zhili He, Simona Rossetti, Shanquan Wang.  (2023)  Reciprocal Interactions of Abiotic and Biotic Dechlorination of Chloroethenes in Soil.  ENVIRONMENTAL SCIENCE & TECHNOLOGY,    (12):   [PMID:37665676] [10.1021/acs.est.3c04262]
2. Juntao Guo, Yihui Zhang, Jinjun Li, Feng Wu, Liting Luo.  (2023)  Molecular Oxygen Activation by Citric Acid Boosted Pyrite–Photo–Fenton Process for Degradation of PPCPs in Water.  MOLECULES,  28  (2): (607).  [PMID:36677664] [10.3390/molecules28020607]
3. Chen Wang, Mingjie Huang, Wentao Hu, Wei Xiang, Tao Zhou, Juan Mao, Feixiang Zan, Xiaohui Wu.  (2023)  Nanoconfined oxygen vacancies assisted highly efficient and selective Cr(VI) removal in high salinity industrial wastewaters.  CHEMICAL ENGINEERING JOURNAL,  456  (141155).  [PMID:] [10.1016/j.cej.2022.141155]
4. Lv Wei, Zhao Shiqing, Elliott Richard, Lv Xuewei, Barati Mansoor.  (2020)  Influence of Ferrous Sulfide on Carbothermic Reduction of Panzhihua Ilmenite Concentrate.  JOM,  72  (10): (3393-3400).  [PMID:] [10.1007/s11837-020-04295-1]
5. Xuemeng Li, Chongdai Luo, Quanying Fu, Cuiping Zhou, Marina Ruelas, Yingshuting Wang, Jinxu He, Yangyang Wang, Yu Shrike Zhang, Jianhua Zhou.  (2020)  A Transparent, Wearable Fluorescent Mouthguard for High-Sensitive Visualization and Accurate Localization of Hidden Dental Lesion Sites.  ADVANCED MATERIALS,  32  (21): (2000060).  [PMID:32240566] [10.1002/adma.202000060]
6. Yiqun Chen, Yang Tong, Yingwen Xue, Zizheng Liu, Min Tang, Li-Zhi Huang, Senlin Shao, Zheng Fang.  (2020)  Degradation of the β-blocker propranolol by sulfite activation using FeS.  CHEMICAL ENGINEERING JOURNAL,  385  (123884).  [PMID:] [10.1016/j.cej.2019.123884]
7. Sun Hu, You Mengyu, Hou Yanrui, Luo Jun, Rao Mingjun, Han Guihong, Li Guanghui.  (2024)  Molybdates Formation Pathways and Their Roles on Thermal Oxidation of Molybdenite Concentrates.  METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE,  55  (6): (5221-5234).  [PMID:] [10.1007/s11663-024-03340-7]
8. Guonan Zhao, Ke Feng.  (2025)  Ultraviolet-enhanced Fe0-activated H2O2 process for the removal of refractory organic matter from landfill leachate: Performance and mechanism.  WATER ENVIRONMENT RESEARCH,  97  (2): (e70022).  [PMID:39901518] [10.1002/wer.70022]

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