Compounds
Showing 33–48 of 56 results
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Molybdenum Oxide Nanoparticles (MoO3), >99%
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“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.” -
Nickel (III) Oxide Nanoparticles (Ni2O3), >99%
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battery industry, carbide, ceramic glazes, pigments and varistors doped materials.
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Silicon Carbide Nanoparticles (SiC) Dispersion, >99%, 10wt%
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Special use material for polishing abrasive; Ceramic bearings; Ceramic engine parts; Grinding wheels; Textile ceramics; High-frequency ceramics; Hard disc and a support for multichip modules; High-temperature and high-power semiconductors; High-temperature ceramic bearings; High-temperature fluid transport parts; High hardness grinding materials; High-temperature sealing valves; High-temperature spray nozzles; Integrated circuit substrate; Catalyst support; Mirror or coatings for extreme ultraviolet environment; Nanocomposites (e.g., Si3N4/SiC, SiC/polymer); Resistance heating elements; Strengthening materials for Al, Al2O3, Mg, and Ni……
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Silicon Carbide Nanoparticles (SiC), >99%
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As a high grade refractory material, special material for polishing abrasive, various ceramic parts, textile ceramics and high frequency ceramics
Manufacture of rubber tyres
Manufacture of grinding material having a high hardness
Making of sealing valves that withstand high temperatures
Resistance heating element manufacture
Used in modifying the strength of alloys
High temperature spray nozzle manufacture
Substrates for ICs
Mirror coatings for high ultraviolet environments. -
Silicon Nitride Nanoparticles (amorphous) (Si3N4), >99%
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“Metallurgy, aviation, chemical, energy and machinery industries in making parts like ball/roller bearing, sleeve, valves and other wear resistants
Making of cutting tools, moulds, cylinder wall coatings, turbine rotor and blades
Making of composites such as ceramics, graphite, rubber, metals, adhesives, etc
Spray nozzles, spray pipes for rockets and missiles.” -
Silicon Oxide Nanoparticles (SiO2), >99%
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Paint, plastic, color rubber, magnetic materials, in addition, nano-silica can be widely used in ceramics (sugar) porcelain, gypsum, batteries, paints, adhesives, cosmetics, glass, steel, fiber, glass, and many other fields of environmental protection products the upgrading.
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Silicon Oxide Nanoparticles (SiO2), >99%, Non-porous
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Paint, plastic, color rubber, magnetic materials, in addition, nano-silica can be widely used in ceramics (sugar) porcelain, gypsum, batteries, paints, adhesives, cosmetics, glass, steel, fiber, glass, and many other fields of environmental protection products the upgrading.
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Silicon Oxide Nanoparticles (SiO2), Super-hydrophobic and Oleophilic, >99%
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Paint, plastic, color rubber, magnetic materials, in addition, nano-silica can be widely used in ceramics (sugar) porcelain, gypsum, batteries, paints, adhesives, cosmetics, glass, steel, fiber, glass, and many other fields of environmental protection products the upgrading.
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Silicon Oxide Nanoparticles (SiO2), Superhydrophobic, >99%
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Paint, plastic, color rubber, magnetic materials, in addition, nano-silica can be widely used in ceramics (sugar) porcelain, gypsum, batteries, paints, adhesives, cosmetics, glass, steel, fiber, glass, and many other fields of environmental protection products the upgrading.
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Tin Oxide Nanoparticles (SnO), >99%
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“Magnetic properties of tin Oxide Nanoparticless are used in magnetic data storage and magnetic resonance imaging
As catalysts, energy-saving coatings and anti-static coatings
As electrodes and anti-reflection coatings in solar cells
In the making of gas sensors, optoelectronic devices and resistors
Making of liquid crystal displays.” -
Titanium Carbide Nanoparticles (TiC), >99%
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In the manufacture of wear-resistant tools, cutting tools
As a coating for abrasive steel bearings, wear resistant tools
In the form of nano titanium carbide ceramic in optics applications
Enhance the conductivity of materials and as a nucleating agent. -
Titanium Nitride Nanoparticles (Cubic) (TiN), >99%
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“Making of plastic packaging materials like PET bottles
In solar vacuum tube, due to high absorption of sunlight
High temperature furnaces for energy consumption
Making of artificial limbs, biological materials
Making optical devices in harsh environments
Used as alloy modificators in cemented carbides.” -
Titanium Oxide (Rutile, coated with Al2O3), >99%
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“Titanium Oxide exhibits good photo catalytic properties, hence is used in antiseptic and antibacterial compositions
Degrading organic contaminants and germs
As a UV-resistant material
Manufacture of printing ink, self-cleaning ceramics and glass, coating, etc.
Making of cosmetic products such as sunscreen creams, Whitening creams, morning and night creams, skin milks, etc.
Used in the paper industry for improving the opacity of paper.” -
Titanium Oxide Nanoparticles (anatase) (TiO2), >99%
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“Titanium Oxide exhibits good photo catalytic properties, hence is used in antiseptic and antibacterial compositions
Degrading organic contaminants and germs
As a UV-resistant material
Manufacture of printing ink, self-cleaning ceramics and glass, coating, etc.
Making of cosmetic products such as sunscreen creams, Whitening creams, morning and night creams, skin milks, etc.
Used in the paper industry for improving the opacity of paper.” -
Titanium Oxide Nanoparticles (anatase+ rutile) (TiO2), >99%
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“Titanium Oxide exhibits good photo catalytic properties, hence is used in antiseptic and antibacterial compositions
Degrading organic contaminants and germs
As a UV-resistant material
Manufacture of printing ink, self-cleaning ceramics and glass, coating, etc.
Making of cosmetic products such as sunscreen creams, Whitening creams, morning and night creams, skin milks, etc.
Used in the paper industry for improving the opacity of paper.” -
Tungsten Disulfide Nanoparticles (WS2), >99%
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“Used in catalysts in processes such as hydrodesulfurization. Also used in oil catalysts.
They are used as solid lubricants, dry film lubricants and in self-lubricating composite materials. They are especially effective in environments of high pressure, high vacuum and high load.
They are also used as semiconductor materials.
Also used as the fuel cells of the anode and anode sensors.”