Indium Arsenide Nanopowder (InAS, Purity: 99.99%)
Indium Arsenide Nanopowder | |
Product No | NRE-25005 |
CAS | 1303-11-3 |
Purity | >99.99% |
Molecular Formula | InAS |
Molecular Weight | 181.95 g/mol |
Color | Metallic crystals |
SSA | 9-9.5 m2/g |
Density | 5.50 g/cm³ |
APS | <100nm (can be customized) |
Group Indium | 13 |
Group Arsenide | 15 |
Indium Arsenide Nanopowder
Indium arsenide (InAs) nanopowder has several intriguing applications, primarily due to its unique electronic and optical properties. Here are some notable applications:
Semiconductors: InAs is often used in the semiconductor industry, particularly in the production of high-speed and high-frequency electronic devices. Its high electron mobility makes it ideal for use in transistors, detectors, and other components.
Infrared Photodetectors: InAs is highly effective in the infrared spectrum, making it useful in the development of photodetectors and sensors for infrared imaging. These applications are crucial in areas such as night vision, thermal imaging, and environmental monitoring.
Thermoelectric Devices: Due to its favorable electronic properties, InAs nanopowder can be used in thermoelectric devices. These devices can convert heat into electrical energy or vice versa, which is valuable in power generation and cooling technologies.
Quantum Computing: InAs is explored in the field of quantum computing, particularly for creating quantum dots. Quantum dots made from InAs can be used to develop qubits, the fundamental units of quantum information.
Optoelectronic Devices: The material is also used in various optoelectronic devices, including lasers and modulators, due to its ability to handle high-frequency signals and its effective bandgap tuning.
Catalysts: InAs nanopowder has potential as a catalyst in certain chemical reactions, particularly in processes that benefit from its unique electronic properties.
Material Science: InAs nanopowder is used in research for developing new materials and composites, particularly those requiring high electronic performance or unique optical properties.