new material
Zinc oxide nanorod and nanosheet mixture provides optimized surface interaction, superior catalytic activity, and enhanced electrical conductivity. Designed for sensors, optoelectronics, and environmental applications, it ensures efficient charge transport, extended durability, and high adaptability.
Product Overview
Zinc Oxide Nanorod and Nanosheet Mixture is an important II-VI oxide semiconductor material, produced using advanced hydrothermal, ultrasonic, microwave, and chemical deposition methods. It consists of a mixture of rod-like and sheet-like zinc oxide nanoparticles, offering excellent optoelectronic performance, catalytic properties, and biocompatibility. Its high catalytic efficiency and optoelectronic properties make it widely used in optoelectronic applications, catalysis, gas sensors, and medical fields.
Key Features
- Excellent Optoelectronic Properties: Zinc oxide nanorods have a large conduction band width and high electron excitation binding energy, with a high photogain coefficient, making them suitable for optoelectronic applications.
- Good Catalytic Properties: Zinc oxide nanorods and nanosheets have high chemical activity, catalytic and photocatalytic abilities, and can resist UV and infrared radiation while offering antibacterial effects.
- Good Biocompatibility: Due to their chemical inertness and excellent biocompatibility, they are used in medical applications to effectively inhibit cancer cell growth.
- Good Electrical Conductivity: These materials are conductive and can be used in the production of electronic devices.
- High Chemical Stability: They are stable under normal temperature and pressure and do not easily react with most chemicals.
Applications
- Optoelectronics: Zinc oxide nanorods and nanosheets are widely used in field emission devices, light-emitting diodes (LEDs), and other optoelectronic materials due to their excellent performance in light applications.
- Gas Sensors: Due to their excellent gas sensitivity, zinc oxide nanorods are commonly used in combustible gas sensors, particularly for selective detection of alcohol vapor signals.
- Solar Cells: As a photocatalyst, zinc oxide nanorods significantly improve the efficiency of solar cells.
- Medical Applications: Zinc oxide nanorods can be used as drug carriers, loading anti-tumor drugs to inhibit cancer cell growth.
| Parameter | Description |
| State | White powder |
| Length | Zinc oxide nanorods 1-7 μm |
| Zinc oxide nanosheet 2-5 μm | |
| Main component | Zinc oxide nanorods |
| Zinc oxide nanosheet |
