Nanoparticles: Nickel [Ni]
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| Basic characteristics: | ||||||
|---|---|---|---|---|---|---|
| Name: | Nickel nanoparticles | |||||
| Packaging: | Antistatic plastic bags | |||||
| Molecular Formula: | Ni | |||||
| Appearance: | Blue & black powder | |||||
| Applications: | ||||||
| Magnetic fluid | The magnetic fluid made of nickel nanoparticles provides excellent properties. It is widely used for sealants, shock absorption materials, medical equipment, and optical displays. | |||||
| Efficient catalyst | Due to its large surface and high activity, nickel nanoparticles are efficient catalysts for chemical reactions such as hydrogenation and treatment of exhaust to reduce harmful chemicals. | |||||
| Propellant additive | Adding nickel nanoparticles to solid (rocket fuel) propellant increases combustion heat, combustion efficiency and combustion stability. | |||||
| Conductive paste | Conductive paste is commonly used for wiring and packaging. In the microelectronics industry, it plays an important role in the miniturization of electronic devices and circuits. | |||||
| High-performance electrodes | Nickel nanoparticles can be made into electrodes with a large surface area to considerably improve energy density. | |||||
| Sintering additive | As an additive, Ni nanoparticles can effectively reduce sintering temperatures of metals and ceramics. | |||||
| Conductive coating | A coating of Ni nanoparticles can be prepared in an inert environment and below the melting point of the bulk metal. | |||||
| Attributes: | ||||||
| Product name |
Average particle size [nm] |
Diameter Range [nm] |
Purity [%] |
Specific surface area [m2/g] |
Bulk density [g/cm3] |
Shape |
| Nickel | 25 | <100 | 99+ | 30-50 | 0.10-0.25 | Round |
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| Nickel nanoparticles | Size distribution [nm] | |||||