Gallium Arsenide Nanopowder (GaAs, Purity: 99.99%)
Gallium Arsenide Nanopowder | |
Product No | NRE-25004 |
CAS | 1303-00-0 |
Purity | >99.99% |
Molecular Formula | GaAs |
Molecular Weight | 144.6446 g/mol |
Color | NA |
Density | 5.32 g/cm³ |
APS | <100nm (can be customized) |
Melting Point | 1238 °C |
Boiling Point | NA |
Gallium Arsenide Nanopowder
Gallium arsenide (GaAs) nanopowder has a range of advanced applications due to its unique semiconductor properties, which include high electron mobility, direct bandgap, and exceptional optical characteristics. Here’s how GaAs nanopowder can be used in various product applications:
Optoelectronic Devices
Photodetectors: GaAs nanopowder is used in photodetectors, particularly for high-speed and high-frequency applications. Their ability to efficiently detect infrared light makes them suitable for use in telecommunications and environmental monitoring.
Light Emitting Diodes (LEDs): GaAs nanopowder is employed in LEDs, especially those requiring infrared or visible light emission. The direct bandgap of GaAs allows for efficient light emission, making it ideal for various display and signaling applications.
Solar Cells
High-Efficiency Solar Panels: GaAs nanopowder can be used in the fabrication of high-efficiency photovoltaic cells. GaAs-based solar cells are known for their excellent light absorption and energy conversion efficiency, making them suitable for both terrestrial and space-based solar power applications.
High-Frequency Electronics
RF and Microwave Devices: Due to their high electron mobility and low noise characteristics, GaAs nanopowder is used in RF and microwave electronic components. Applications include amplifiers, oscillators, and switches that operate at high frequencies and require high performance.
Photonics
Nonlinear Optical Devices: GaAs nanopowder can be employed in nonlinear optical devices for applications such as frequency doubling and optical switching. Their nonlinear optical properties are beneficial for advanced photonics and communication systems.
Medical Imaging
Imaging Agents: GaAs nanopowder can be utilized as imaging agents in various medical imaging techniques, including X-ray and fluorescence imaging. Their optical properties enhance imaging contrast and resolution, aiding in detailed and accurate diagnostics.
Thermal Management
Heat Dissipation Materials: GaAs nanopowder can be used in materials designed for thermal management, improving heat dissipation in electronic devices. Its high thermal conductivity helps in managing and dissipating heat effectively, enhancing device performance and longevity.
Quantum Computing
Quantum Dots: GaAs nanopowder can be used to create quantum dots for quantum computing applications. Their size-tunable electronic and optical properties make them suitable for use in quantum information processing and quantum dot-based technologies.
Catalysis
Catalytic Reactions: GaAs nanopowder can act as a catalyst or a catalyst support in various chemical reactions. Its semiconductor properties can enhance catalytic activity and selectivity in processes like hydrogenation, oxidation, and photocatalysis.