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Categories
» Nanoparticles
» Other Nanoparticles
| Aggregated nanostructured powders (for thermal spraying); metals, graphite, diamonds, and silicon; |
| Country: |
United States of America |
| Link to your website: |
http://www.nanoamor.com |
Description:
Nanostructured materials listed on our Products page are produced using the following technologies:
Catalytic Chemical Vapor Deposition: Tangled carbon nanotubes (CNTs), dispersible & short CNTs, aligned CNTs, & functionalized CNTs, having a wide variety of inside diameters, outside diameters, and lengths for different applications.
Chemical (Co-)Precipitation: Single- and multi-metal oxides.
Coating/Modification: for easy dispersion and better performance.
Electro-Explosion: metal and alloys, APS 60-100 nm.
Explosion: Diamond nanopowders, APS 3-15 nm.
Gas Jetting: for brittle powders from nano- to submicro-meter scale.
Hydrothermal Method: oxides, APS 20-80 nm (and larger -- up to 300-500 nm).
Laser Induced Chemical Vapor Deposition: Nanowires; Si, SiC, and oxides, APS ~10, 50, 100 nm, free from aggregation.
Low Temperature Physical Method: for brittle powders, APS < a few um (and smaller -- < 100 nm).
Mechanical Milling: (1) for brittle powders, APS down to 20 nm, (2) for breaking down aggregated nanopowders & tangled CNTs; (3) for agglomerating nanostructured metals, alloys, oxides, carbides, and their mixtures.
Microemulsions: oxides and compounds with precise control of small (5-10 nm) APS. Customized processing is available for > 100 kg/order.
Plasma Enhanced Chemical Vapor Deposition: (1) Metals: APS 25 and 60 nm, high cost; (2) Carbides, Borides and Nitrides: APS 5, 10, 30, 60, 200, 300, and 500 nm, free from aggregation; (3) Metals and Oxides: APS > 200 nm, inexpensive.
Sol-Gel: aggregated nanopowders.
Wet Chemistry: metallic nanopowders, free from aggregation, easy coating.
These advanced processing technologies enable us to achieve controllable products parameters such as component, composition, particle size, size distribution, morphology, surface area, and purity. Some of our techniques can perform surface coating treatments which are available on our customers' request. Most of these techniques can yield tonnage or more (monthly) nanostructured materials with reproducible quality. The utilization of various advanced processing techniques with a large yield makes it possible for us to provide our customers various low-cost, high-quality, and large-quantity nanostructured materials.
Amorphous materials in powder and bulk forms are processed respectively via the following two technologies:
Mechanical Milling/Alloying
Melt Solidification
We would like to process various amorphous powder and bulk amorphous materials to meet our customers' requirements.
If you need more information on our processing technologies and products, please Contact Us. |
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