Additional information
Cas number | 7439-98-7 |
---|---|
Empirical formula | Mo |
Atomic mass | 95.94Â |
Average particle size | 500-800 nm |
Purity | >99% |
Appearance | Black Powder |
Packing size | 5 gm |
additives in alloys for hi-tech applications, such as high-vacuum or corrosive environments.
Cas number | 7439-98-7 |
---|---|
Empirical formula | Mo |
Atomic mass | 95.94Â |
Average particle size | 500-800 nm |
Purity | >99% |
Appearance | Black Powder |
Packing size | 5 gm |
No application data available.
“Acts as an anti-biotic, anti-microbial, and anti-fungal agent when added to plastics, coatings, and textiles
Copper diet supplements with efficient delivery characteristics
High strength metals and alloys
EMI shielding
Heat sinks and highly thermal conductive materials
Efficient catalyst for chemical reactions and for the synthesis of methanol and glycol
As sintering additives and capacitor materials
Conductive inks and pastes containing Cu Nanoparticless can be used as a substitute for very expensive noble metals used in printed electronics, displays, and transmissive conductive thin film applications
Superficial conductive coating processing of metal and non-ferrous metal
Production of MLCC internal electrode and other electronic components in electronic slurry for the miniaturization of microelectronic devices;
As nanometal lubricant additives”.
“Dispersion-strengthening
Nanocomposites
Catalyst support
Transparent conductive coatings
Biomaterials
Heat-transfer fluids (suspensions)
Drug delivery
Sources for IC board or package
Transparent optical coatings
Wear-resistant additives
Material surface coatings”
Anti-microbials, anti-biotics and anti-fungal agents
Plastics and soaps
Aerospace materials
Optical filters
Microsensors
Coatings, nanofibers, bandages, nanowires and textiles.
Used in biosensors and numerous assays where the silver Nanoparticles materials can be used as biological tags for quantitative detection. incorporated in apparel, footwear, paints, wound dressings, appliances, cosmetics, and plastics for their antibacterial properties.used in conductive inks and integrated into composites to enhance thermal and electrical conductivity. used to efficiently harvest light and for enhanced optical spectroscopies including metal-enhanced fluorescence (MEF) and surface-enhanced Raman scattering (SERS).