new material
Tungsten oxide (WO₃) nanowires provide optimized electrochemical activity, superior optical properties, and enhanced charge transport efficiency. Designed for sensors, electrochromic devices, and catalytic applications, they ensure reliable performance, extended stability, and high adaptability.
Product Overview
Tungsten oxide nanowires are one-dimensional nanomaterials composed of tungsten and oxygen. They possess unique physical and chemical properties, with small diameters and longer lengths that provide a large surface area and excellent electrical and catalytic performance. These nanowires are widely used in electronic devices, catalysis, energy storage, and sensor applications.
Key Features
- Unique Nanostructure:The high aspect ratio of tungsten oxide nanowires enhances charge transport and material diffusion.
- Good Electrical Properties:These nanowires exhibit excellent conductivity and semiconductor characteristics, making them suitable for a variety of electronic devices.
- Outstanding Catalytic Performance:They show significant catalytic activity in oxidation reactions and energy storage applications.
- High Surface Area:The nanowire structure provides a large surface area, improving the efficiency of catalytic and electrochemical reactions.
Applications
- Electronics:Used in the manufacture of high-performance electronic devices such as sensors and field-effect transistors (FETs).
- Catalysis:Tungsten oxide nanowires exhibit excellent catalytic activity in various chemical reactions, especially oxidation and decomposition reactions.
- Energy Storage:Used in supercapacitors and batteries to enhance energy storage capacity and charge/discharge rates.
- Sensors:Suitable for the production of gas sensors, particularly for environmental monitoring and industrial gas detection.
| Technical Parameter | Value |
| Diameter | 20 nm |
| Length | 20 μm |
