new material
Zinc oxide (ZnO) nanowires provide optimized optical properties, superior charge transport efficiency, and enhanced mechanical flexibility. Designed for sensors, optoelectronics, and photocatalytic applications, they ensure reliable performance, extended stability, and high adaptability.
Product Overview
Zinc oxide (ZnO) nanowires feature a unique hexagonal columnar crystal structure with a large surface area. Due to their one-dimensional nanostructure, ZnO nanowires exhibit distinct properties that differ significantly from traditional bulk materials. These unique characteristics make them highly suitable for a wide range of applications in catalysis, optoelectronics, magnetism, and sensing technologies.
Key Features
- High Surface Area Effect:The large surface area of ZnO nanowires enhances their reactivity, making them ideal for catalytic applications.
- Size-Dependent Properties:The one-dimensional nanostructure leads to novel physical and chemical properties not seen in larger-sized materials.
- Macroscopic Quantum Tunnel Effect:ZnO nanowires at the nanoscale exhibit quantum effects, making them highly suitable for optoelectronic and sensing devices.
- Excellent Optoelectronic Properties:Capable of efficiently absorbing light and converting it into electrical energy, ideal for optoelectronic devices.
Applications
- Catalysis:Used as highly efficient catalysts in catalytic reactions.
- Optoelectronics:Demonstrates excellent optoelectronic properties, widely used in optoelectronic devices and solar cells.
- Magnetism:Used as an enhancer in magnetic materials.
- Sensors:Applied in gas sensors and biosensors, exhibiting high sensitivity and rapid response.
| Parameter | Value |
| Morphology | White foamy |
| Diameter | 50-120 nm |
| Length | 2-20 μm |
| Structure | Hexagonal prismatic single crystal |
