Non-Oxide Nanoparticles
Showing 1–16 of 18 results
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Aluminium Hydroxide Nanoparticles (Al(OH)3), >99%
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Aluminium Nitride Nanoparticles (Hexagonal) (AlN), >99%
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In coatings, plastics, and wire to improve the thermal conductivity of plastic
For manufacturing integrated circuit board, optical devices, radiator, electronic devices and high temperature crucible
Fabrication of metal matrix and polymer matrix composites, especially in the heat seal adhesives and electronic packaging materials
In high thermally conductive ceramics and composite ceramics such as evaporation boats and heat sinks
Electrically insulating packages for electronics
Crucibles for metals and salt melts
In aerospace to improve thermomechanical properties
Thermally conductive filler for polymers
Components for wafer processing
To improve the performance of epoxy resin
As a kind of reinforcing agent
As heat conductive material -
Boron Carbide Nanoparticles (B4C), >99%
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In boron neutron capture therapy, which is a therapy for treating brain cancer
In biomedical and bioscience areas
In coatings, plastics, and catalyst applications. -
Boron Nitride (Hexagonal) (BN), >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.” -
Calcium Carbonate Nanoparticles (Paste) (CaCO3), >99%
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natural and synthesized rubbers, developed to improve performance of natural and synthesized rubbers in reinforcement and other mechanical properties, organic silicon, polyurethane, epoxy, PVC resin, latex.
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Calcium Phosphate Nanoparticles (Ca3(PO4)2), >99%
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Biomedical applications of nanostructured calcium phosphate ceramics in bone regeneration have been addressed in more detail, that is, (1) polymer/calcium phosphate nanocomposites, (2) nanostructured monophasic calcium phosphate bone fillers, (3) nanostructured precursor phases for calcium phosphate cements, and (4) nanostructured calcium phosphate coatings.
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Hydroxyapatite Nanoparticles (Ca5(PO4)3(OH)), >99%
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Bone tissue engineering
Bone void fillers for orthopaedic, traumatology, spine, maxillofacial and dental surgery.
Orthopedic and dental implant coating
Restoration of periodontal defects
Edentulous ridge augmentation
Endodontic treatment like pulp capping
Repair of mechanical furcation perforations and apical barrier formation
Fillers for reinforcing restorative glass ionomer cement (GIC) and restorative composite resin
Desensitizing agent in post teeth bleaching
Remineralizing agent in toothpastes
Early carious lesions treatment
Drug and gene delivery -
Indium Hydroxide Nanoparticles(Â In(OH)3), >99%
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“Optical and antistatic coatings
As a substitute for mercury as a battery inhibitor
Forms a transparent conducting ceramic in combination with tin oxide” -
Lanthanum Hexaboride Nanoparticles (LaB6), >99%
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“As single crystal or as a coating on hot cathodes
Used as a size/strain standard in X-ray powder diffraction for calibrating the instrumental broadening of diffraction peaks
In radar aerospace, electronics and infrared applications
Environmental protection, refining, etching and synthetic organic chemistry.
Optical MEMS-based sensor in the NIR range” -
Lithium Iron Phosphate (LiFePO4, LFP), >99%
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“High-temperature dehydrating agent used for the production of silicon steel sheet, high-grade ceramic material, electronic industry material, adhesive and additive in the chemical raw material
Electric insulating material for making crucible, smelter, insulated conduit, electrode bar, and electrode sheet
High-frequency magnetic-rod antenna, magnetic device filler, insulating material filler and various carriers used in radio industry
As a fire retardant used for chemical fiber and plastics trades
In refractory fiber and refractory material, magnesite-chrome brick, filler for refractory coating, refractory and insulating instrument, electricity, cable, optical material, material for steel-smelting furnace and other high- temperature furnaces, heating material and ceramic base plate
Fuel additive, cleaner, antistatic agent and corrosion inhibitor” -
Magnesium Hydroxide Nanoparticles (Mg(OH)2), >99%
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It is an excellent fire or flame retardant, smoke suppressant.
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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.” -
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.”