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Pyrite, naturally occurring mineral, grains, - About 1.5-4.8mm, high purity , CAS No.1309-36-0

6 Citations COA COA
    Grade & Purity:
  • About 1.5-4.8mm
In stock
Item Number
P302349
Grouped product items
SKU Size
Availability
 Price Qty
P302349-1g
1g
10
$99.90
P302349-5g
5g
2
$421.90
Wish List
Bulk Order  SDS  DATASHEET  Specification Sheet

Discover Pyrite, naturally occurring mineral, grains, by Aladdin Scientific in About 1.5-4.8mm for only $99.90. Available - in Ligands at Aladdin Scientific. Tags: .

Basic Description

Synonyms Iron disulfide | 12068-85-8 | 1309-36-0 | Pyrite (FeS2) | Iron sulfide (FeS2) | bis(sulfanylidene)iron | Irondisulfide(Ironpyrite) | Iron(II) disulfide (isometric) | MFCD00064690 | EINECS 215-167-7 | Ferric Disulfide | iron(IV) sulfide | Iron disulfide (Iron pyrite) | DTXSID408922
Specifications & Purity About 1.5-4.8mm
Storage Temp Room temperature
Shipped In Normal
Product Description

 Product Application:

For grain mounts, XRD and microprobe standards, identification of unknown minerals.Pyrite is used in the preparation of iron(II) sulfate, sulfur dioxide and iron(II) sulfide. It finds application as semiconductor material, as the cathode material in energizer band and non-rechargeable lithium batteries. It is utilized to make marcasite jewelry. In addition, it is used in photovoltaic solar panels. It is useful for grain mounts, XRD and microprobe standards and identification of unknown minerals.


Taxonomic Classification

Taxonomy Tree

Kingdom Inorganic compounds
Superclass Mixed metal/non-metal compounds
Class Transition metal organides
Subclass Transition metal sulfides
Intermediate Tree Nodes Not available
Direct Parent Transition metal sulfides
Alternative Parents Inorganic sulfides  Inorganic salts  
Molecular Framework Not available
Substituents Transition metal sulfide - Inorganic sulfide - Inorganic salt
Description This compound belongs to the class of inorganic compounds known as transition metal sulfides. These are inorganic compounds containing a sulfur atom of an oxidation state of -2, in which the heaviest atom bonded to the oxygen is a transition metal.
External Descriptors Not available

Names and Identifiers

Pubchem Sid 488182019
IUPAC Name bis(sulfanylidene)iron
INCHI InChI=1S/Fe.2S
InChIKey NFMAZVUSKIJEIH-UHFFFAOYSA-N
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.

7 results found

Lot Number Certificate Type Date Item
D2230057 Certificate of Analysis Feb 07, 2025 P302349
J2113265 Certificate of Analysis Aug 08, 2024 P302349
C2426333 Certificate of Analysis Mar 15, 2024 P302349
K2205394 Certificate of Analysis Sep 16, 2022 P302349
K2205414 Certificate of Analysis Sep 16, 2022 P302349
D2230066 Certificate of Analysis Feb 23, 2022 P302349
D23261345 Certificate of Analysis Feb 23, 2022 P302349

Chemical and Physical Properties

Solubility Insoluble in water.
Refractive Index 3.08
Molecular Weight 119.980 g/mol
XLogP3
Hydrogen Bond Donor Count 0
Hydrogen Bond Acceptor Count 2
Rotatable Bond Count 0
Exact Mass 119.879 Da
Monoisotopic Mass 119.879 Da
Topological Polar Surface Area 64.200 Ų
Heavy Atom Count 3
Formal Charge 0
Complexity 18.300
Isotope Atom Count 0
Defined Atom Stereocenter Count 0
Undefined Atom Stereocenter Count 0
Defined Bond Stereocenter Count 0
Undefined Bond Stereocenter Count 0
The total count of all stereochemical bonds 0
Covalently-Bonded Unit Count 1

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Citations of This Product

How to Cite Aladdin Scientific Products?
1. Ying Lv, Linting Han, Jie Shen, Jianfa Li, Huaping Dong, Jiangang Hu, Yuxin He, Yimin Li.  (2024)  Impact of environmental factors on the removal of chloramphenicol by zero-valent iron and pyrite mixture.  SEPARATION AND PURIFICATION TECHNOLOGY,  329  (125045). 
2. 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,     
3. Mingxing Hu, Hanmin Zhang, Yu Tian.  (2023)  Achieving nitrogen removal with low material and energy consumption through partial nitrification coupled with short-cut sulfur autotrophic denitrification in a single-stage SBR.  BIORESOURCE TECHNOLOGY,  380  (128999). 
4. Zhi-Qiang Wang, Yun-Guo Yang, Lu Tai, Leo Woon-Ming Lau, Dan Zhou.  (2023)  Mitigating surface charging in XPS using an in-situ sub-nanometer gold coating technique.  MATERIALS CHARACTERIZATION,  196  (112663). 
5. 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). 
6. Qicai Dai, Zhaobin Liu, Huan Li, Ruiliang Zhang, Teng Cai, Jian Yin, Yijing Gao, Siqin Li, Xueqin Lu, Guangyin Zhen.  (2024)  Enhanced dewaterability and triclosan removal of waste activated sludge with iron-rich mineral-activated peroxymonosulfate.  WASTE MANAGEMENT,  182  (271). 

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