new material
Nickel nanowires provide optimized electrical conductivity, superior magnetic properties, and enhanced mechanical strength. Designed for electromagnetic shielding, sensors, and energy storage, they ensure efficient charge transport, extended durability, and high adaptability.
Product Overview
Nickel nanowires are one-dimensional nanomaterials widely used in catalysis, electronics, and energy storage. Due to their unique size effects and excellent electrical conductivity, they show great potential in applications like electronic devices, sensors, catalysts, and battery materials. The long, thin shape provides a large surface area, making them particularly useful in catalytic, energy storage, and electronic applications.
Key Features
- High Surface Area:The nanowire shape provides a large surface area, enhancing catalytic activity and electrochemical performance.
- Good Electrical Conductivity:Nickel nanowires have excellent conductivity, making them ideal for various electronic applications.
- Mechanical Strength:These nanowires are strong and durable, suitable for high-performance materials and devices.
Applications
- Catalysis:Nickel nanowires can be used as catalysts or catalyst supports in reactions such as hydrogenation, oxidation, and hydrotreating.
- Energy Storage:Used in batteries and supercapacitors, nickel nanowires improve the capacity and cycle life of energy storage devices.
- Electronics:With their excellent conductivity, nickel nanowires are ideal for use in electronic components, sensors, and microelectronics.
- Sensors:They are highly sensitive, making them effective in gas sensors, temperature sensors, and other detection devices.
| Parameter | Value |
| Diameter | 200 nm |
| Length | 200 μm |
| Appearance | Black Powder |
