Technical Specifications
- Material Name
- Product: Molybdenum Nanopowder
- Chemical Formula: Mo
- CAS Number: 7439-98-7
- Purity
- Grade: 99.9% (metal basis)
- Impurities: ≤0.1% (trace metal oxides, other metallic or non-metallic elements)
- Particle Size
- Average Size: 35–45 nm
- Particle Size Distribution: Typically verified via SEM (Scanning Electron Microscopy) or TEM (Transmission Electron Microscopy)
- Morphology
- Shape: Near-spherical or irregular, depending on synthesis process
- Surface Area: Significantly higher than bulk molybdenum due to nanoscale dimensions
- Crystal Structure
- Phase: Body-Centered Cubic (bcc)
- Potential Variations: Minor discrepancies may arise based on manufacturing and processing conditions
- Physical and Chemical Properties
- Color: Grayish metallic powder
- Bulk Density: Typically lower than fully dense molybdenum due to particle agglomeration at the nanoscale
- Melting Point: ~2,623 °C
- Boiling Point: ~4,639 °C
- High-Temperature Stability: Molybdenum has excellent strength and stability at elevated temperatures
- Packaging and Storage
- Standard Packaging: Sealed in airtight containers under inert gas (e.g., argon) or vacuum to minimize oxidation
- Storage Conditions: Store in a cool, dry environment; protect from air, moisture, and potential contaminants
- Shelf Life: Stable if properly sealed; surface oxidation may occur over time if exposed to air
- Safety and Handling
- Hazards:
- Fine molybdenum particles can be reactive or combustible under certain conditions
- Inhalation of dust may irritate the respiratory tract
- Recommended Protective Measures:
- Wear suitable PPE (gloves, goggles, respirators)
- Handle under inert atmosphere or controlled conditions to reduce oxidation and combustion risks
- Hazards:
Applications
- High-Temperature and Refractory Alloys
- Alloy Strengthening: Molybdenum is widely used to enhance strength and high-temperature performance in steels, superalloys, and other metallurgical products
- Powder Metallurgy: Nano-sized particles can improve sinterability, densification, and mechanical properties of final components
- Electronics and Semiconductors
- Thin Films and Contacts: Molybdenum’s stability makes it suitable for thin-film transistors, circuit interconnects, and other semiconductor applications
- MoS₂ Synthesis: Nano-molybdenum can serve as a precursor for 2D molybdenum disulfide (MoS₂) used in electronic and optoelectronic devices
- Catalysis
- Chemical Processes: Molybdenum-based catalysts are utilized in hydrodesulfurization and other refining processes
- Syngas and Hydrogenation: Nanoscale molybdenum can provide high catalytic activity and selectivity in certain hydrogenation reactions
- Energy Storage and Conversion
- Battery Electrodes: Molybdenum or molybdenum compounds may be used in advanced battery systems for improved capacity and cycle life
- Fuel Cells: Nano-molybdenum can act as a catalyst or catalyst support, especially in PEM (Proton Exchange Membrane) and other fuel cell technologies
- Coatings and Surface Engineering
- Protective Coatings: Molybdenum’s high hardness and thermal stability make it valuable for wear-resistant and high-temperature coatings
- Thermal Spraying: Used to improve surface properties of components exposed to friction or extreme heat
- Additive Manufacturing (3D Printing)
- Metal Powders: Emerging interest in using nano and submicron molybdenum powders in additive manufacturing for high-performance parts
- Enhanced Part Properties: May lead to refined microstructures and improved mechanical properties in final printed components
In Summary
Molybdenum Nanopowder (Mo, 99.9%, 35–45 nm) is a high-purity, nanoscale form of molybdenum known for its exceptional temperature stability, strength, and catalytic properties. It finds use across various industries, including metallurgy, electronics, catalysis, and energy storage. Proper inert-atmosphere handling, as well as safe storage, are essential to preserving its quality and ensuring user safety.
