Additional information
| Cas number | 1313-27-5 |
|---|---|
| Empirical formula | MoO3 |
| Molecular weight | 127.94 g/mol |
| Average particle size | ~100 nm |
| Purity | >99% |
| Appearance | Black Powder |
| Bulk density | 4.69 g/cm³ |
| Packing size | 5 gm |
Molybdenum Oxide Nanoparticles (MoO3), >99%
“In electrochemical capacitors
In coatings, nanowires, nanofibers, plastics, and textiles
In specific alloy and catalyst applications
As catalysts, oxidation catalysts, cracking catalysts, hydrogenation catalysts, and pigments
In ceramics and glass production
As a raw material for the production of molybdenum metal.”
No application data available.
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Boron Oxide Nanoparticles (B2O3), >99%
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“In subsurface investigation, oil drilling and high-speed cutting tools
As a metal forming and metal drawing lubricant release agent
In transistors and as plastic resin sealing desiccant polymer additives
Pressed into various shapes and can be used as high temperature, high voltage, insulation, cooling components
As a special high-temperature electrolysis state, resistor material
In the aerospace industry, for use in heat shielding material
As a catalyst for high temperature, high pressure treatment
Mold release for die casting and injection molding
Thermally conductive filler for polymers
Composite ceramics
Starting material for hot-pressed BN parts
For high-voltage high frequency electricity, plasma arc’s insulators, high-frequency induction furnace materials, semi-conducting solid phase admixtures, atom reactor’s structure materials, automatic welding high-temperature coating, preventing neutron radiation’s packing materials, radar antenna’s mediums, radar’s pass box, and rocket engine’s components
As high-temperature lubricants
Mold pressing boron nitride can be used in making high-temperature crucible and other products.” -
Cobalt(III) Oxide Nanoparticles (Co2O3), >99%
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In micro-electronics
As a magnetic Nanoparticless with numerous uses in microbatteries, nanowires, and specific alloy and catalyst applications
In catalysis, superconductors, electronic ceramics and other fields as an important inorganic material
As catalyst and catalyst carriers
As an electrode active materials
For glass, porcelain colorants and pigments
Chemical industry oxidants
Senior goggles and other filter materials
As carbides
In temperature and gas sensors
In electrochromic devices
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Copper Oxide Nanoparticles (CuO), >99%
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As burning rate catalyst in rocket propellant. It can greatly improve the homogeneous propellant burning rate, lower pressure index, and also perform better as a catalyst for the AP composite propellant
Can be applied to the catalyst, superconducting materials, thermoelectric materials, sensing materials, glass, ceramics and other fields
As ceramic resistors, magnetic storage media, gas sensors, near-infrared tilters, photoconductive and photothermal applications
As semiconductors, solar energy transformation, and high-tech superconductors. -
Europium Oxide Nanoparticles (Er2O3), >99%
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Can be dispersed in glass or plastic for display purposes, such as display monitors
Can be surface modified for distribution into aqueous and non-aqueous media for bioimaging
High-temperature corrosion-resistant coatings
Dopants for optical fiber and laser materials
Tuned insulator for Josephson junctions
In up-conversion material, capacitors, and metal-Oxide-semiconductor transistors