NR5490 Ammonium Tetrathiotungstate (CAS: 13862-78-7)

Ammonium Tetrathiotungstate Description:

Ammonium Tetrathiotungstate, available on the Stanford Advanced Materials (SAM) platform, possesses distinctive properties crucial for various applications. This compound, known for its yellow crystalline structure, exhibits solubility in water and serves as a key reagent in laboratory research, pharmaceutical synthesis, and materials science. With its ability to form stable complexes and catalyze chemical reactions, Ammonium Tetrathiotungstate (ATT) plays a significant role in the synthesis of tungsten-based materials, electrochemical processes, and surface modification techniques. Accessible through the SAM platform, it provides researchers and industries with a reliable resource for advancing scientific exploration and technological innovation.

Ammonium Tetrathiotungstate Specifications:

Ammonium Tetrathiotungstate Applications:

1. Materials Science: It is used as a precursor in the synthesis of tungsten disulfide (WS2) and other tungsten-based materials with applications in lubricants, catalysts, and electronic devices.

2. Catalysis: Ammonium Tetrathiotungstate catalyzes various organic synthesis reactions, including hydrodesulfurization and hydrogenation processes.

3. Electrochemistry: It finds application in electrochemical processes, such as batteries and fuel cells, as a conductive additive or catalyst for enhancing performance.

4. Surface Modification: The compound is utilized in surface modification techniques to functionalize surfaces for improved adhesion, corrosion resistance, or catalytic activity.

5. Nanotechnology: It is used in nanotechnology for the production of tungsten-based nanoparticles and nanocomposites with unique optical, mechanical, and electrical properties.

6. Research and Development: Ammonium Tetrathiotungstate is employed in laboratory research for studying the properties and applications of tungsten compounds, contributing to advancements in materials science and chemistry.

Ammonium Tetrathiotungstate Safety Information: