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What is Molybdenum Oxide (MoO₃) Nanopowder/Nanoparticles?
Molybdenum Oxide (MoO₃) nanopowder consists of ultra-fine molybdenum trioxide particles known for their excellent catalytic, optical, and electronic properties. It is widely used in catalysis, energy storage, coatings, and electronic applications due to its high oxidation resistance and conductivity.
Chemical Properties and CAS Number
- Chemical Formula: MoO₃
- CAS Number: 1313-27-5
- Appearance: Light yellow or white fine powder
- Density: Approximately 4.69 g/cm³
- Melting Point: ~795°C
- Solubility: Slightly soluble in water, soluble in acids
- Chemical Stability: High oxidation resistance, excellent thermal and electrical properties
Applications of Molybdenum Oxide Nanoparticles
1. Catalysis and Chemical Processing
Used as a catalyst in petroleum refining, hydrodesulfurization, and industrial chemical reactions.
2. Energy Storage and Battery Technology
Applied in lithium-ion batteries, supercapacitors, and fuel cells to enhance electrochemical stability and energy efficiency.
3. Coatings and Surface Protection
Utilized in corrosion-resistant coatings, anti-wear coatings, and optical coatings for improved durability.
4. Electronics and Semiconductor Industry
Employed in thin-film transistors, displays, and microelectronics for high-performance conductivity and stability.
5. Optical and Photovoltaic Applications
Used in smart windows, solar cells, and light-sensitive coatings due to its tunable optical properties.
6. Biomedical and Pharmaceutical Applications
Applied in antibacterial coatings, drug delivery systems, and medical diagnostics.
Pricing of Molybdenum Oxide Nanopowder
Prices vary based on purity, particle size, synthesis method, and specific industry applications:
- Industrial Grade: Typically ranges from $80 – $500 per kilogram
- High-Purity/Specialized Grade: Prices range from $1,500 – $5,000 per kilogram, used in high-performance batteries, electronics, and catalysis.
Factors Influencing Molybdenum Oxide Powder Prices
- Purity level and particle size distribution
- Functionalization and surface modifications
- Processing complexity and synthesis method
- Bulk order volume and market demand
Conclusion
Molybdenum Oxide (MoO₃) nanopowder is a high-performance material used in catalysis, energy storage, coatings, and electronic applications. Its superior oxidation resistance, conductivity, and catalytic activity make it essential for next-generation industrial and scientific applications. Pricing depends on purity, particle specifications, and intended use.