Tungsten Oxide (WO3) Micron Powder, Purity: 99.99%, Size: 325 mesh

Description

Tungsten Oxide (WO₃) Micron Powder, Purity: 99.99%, Size: 325 mesh

Product Description:
Tungsten Oxide (WO₃) Micron Powder is a high-purity, fine-grade material with 99.99% purity and 325 mesh particle size, offering outstanding chemical stability and coloration properties. With its rhombic crystal structure and brilliant yellow-blue hue in different oxidation states, WO₃ plays a vital role in advanced materials science and industrial applications.

This compound is widely recognized for its electrochromic, photocatalytic, and gas-sensing capabilities, making it highly valuable for modern-day technological innovation. Its fine particle size ensures uniform dispersion in formulations, enhancing performance and surface activity.

Technical Properties:

• Purity: 99.99%

• Particle Size: 325 mesh

• Chemical Formula: WO₃

• Composition: W – 79.3%, O – 20.7%

• CAS Number: 1314-35-8

• Melting Point: 1473 °C

• Density: 7.16 g/cm³

• Crystal Structure: Rhombic

• Form: Fine Powder

Key Applications:

• Ceramics Industry: Used as a key raw material in high-temperature ceramics, where it improves mechanical strength and coloration.

• Pigments & Colorants: Acts as a coloring agent in porcelain glazes, inks, and specialty coatings, contributing yellow, blue, or green shades depending on processing conditions.

• Inks & Paints: Offers unique electrochromic and photochromic properties useful in smart coatings and functional paints.

• Electronics & Photonics: WO₃ is a preferred material in electrochromic displays, smart windows, and thin-film transistors due to its tunable band gap and electrical conductivity.

• Catalysts & Photocatalysts: Effective in environmental remediation and solar-driven photocatalysis, useful in degrading organic pollutants in water and air.

• Gas Sensors: Widely used in detecting NOx, NH₃, H₂S, and VOCs due to its sensitivity and fast response at various temperatures.

• Energy Storage Devices: Incorporated in supercapacitors and lithium-ion batteries to improve energy density and cycling stability.

Performance Highlights:

• Excellent thermal and chemical stability

• Compatible with sol-gel, sputtering, and CVD/ALD fabrication techniques

• High surface area for better catalytic and sensing efficiency

• Non-toxic and environmentally friendly in solid form

• Ideal for both industrial and research-grade applications