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Catalog Number:
35396
CAS Number:
13862-78-7
Ammonium tetrathiotungstate
Purity:
≥99.9% Metals basis
Hazmat
Documents
$36.65 /1G
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Product Information

Ammonium tetrathiotungstate is a versatile chemical compound with significant applications in various fields, particularly in materials science and catalysis. This compound, known for its unique properties, serves as a precursor for the synthesis of tungsten-based materials, which are essential in the production of high-performance catalysts and advanced electronic components. Its ability to form stable complexes makes it an excellent choice for researchers looking to explore novel catalytic processes or develop new materials with enhanced properties.

In addition to its role in catalysis, ammonium tetrathiotungstate is utilized in the production of thin films and coatings, contributing to the development of innovative technologies in electronics and optics. Its unique chemical structure allows for the fine-tuning of material properties, making it a valuable asset in research and industrial applications. With its growing relevance in the field of nanotechnology and materials engineering, ammonium tetrathiotungstate stands out as a compound that can drive advancements in various technological sectors.

CAS Number
13862-78-7
Purity
≥99.9% Metals basis
Molecular Formula
NH42WS4
Molecular Weight
348.18
PubChem ID
53393497
Density
2.71
Appearance
Yellow to orange powder
Conditions
Store at RT
General Information
CAS Number
13862-78-7
Purity
≥99.9% Metals basis
Molecular Formula
NH42WS4
Molecular Weight
348.18
PubChem ID
53393497
Density
2.71
Appearance
Yellow to orange powder
Conditions
Store at RT
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
Yes
Antibiotic
No
DEA-regulated
No
Warnings
-
Applications

Ammonium tetrathiotungstate is widely utilized in research focused on:

  • Nanotechnology: This compound is used in the synthesis of tungsten-based nanoparticles, which have applications in electronics and catalysis due to their unique properties.
  • Photovoltaics: It plays a role in the development of thin-film solar cells, enhancing their efficiency and stability, making renewable energy sources more accessible.
  • Chemical Synthesis: Researchers use it as a precursor for producing tungsten sulfide, which is valuable in creating lubricants and coatings that reduce friction and wear.
  • Analytical Chemistry: It serves as a reagent in various analytical techniques, helping to detect and quantify trace elements in environmental samples, thus supporting environmental monitoring efforts.
  • Material Science: The compound is explored for its potential in creating advanced materials with specific electrical and thermal properties, which can benefit industries like aerospace and automotive.

Citations