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Indium Arsenide Nanoparticles

Indium Arsenide Nanoparticles

Indium Arsenide Nanoparticles
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 Nanoparticles 

Indium arsenide (InAs) nanoparticles are known for their unique electronic and optical properties, which make them suitable for a variety of advanced applications. Here’s a look at how InAs nanoparticles can be applied across different product areas:

Optoelectronics

Photodetectors: InAs nanoparticles are used in photodetectors, especially those designed to detect infrared light. Their narrow bandgap and high electron mobility make them ideal for high-speed and high-sensitivity photodetection in the near-infrared range.

Light Emitting Devices: Due to their ability to emit light in the infrared spectrum, InAs nanoparticles are used in infrared LEDs and laser diodes. These devices are crucial for applications in telecommunications, imaging, and remote sensing.

 Solar Cells

High-Efficiency Solar Panels: InAs nanoparticles can be incorporated into high-efficiency solar cells, particularly for multi-junction solar cells. Their ability to absorb a wide range of wavelengths contributes to enhanced energy conversion efficiency.

High-Frequency Electronics

RF and Microwave Devices: InAs nanoparticles are employed in high-frequency electronic devices due to their high electron mobility and low noise characteristics. Applications include amplifiers, oscillators, and mixers used in RF and microwave communication systems.

 Quantum Computing

Quantum Dots: InAs nanoparticles can be used to create quantum dots for quantum computing applications. Their size-dependent electronic and optical properties are valuable for developing qubits and other quantum information technologies.

Thermal Imaging

Thermal Detectors: The ability of InAs nanoparticles to detect infrared radiation makes them useful in thermal imaging applications. They can be used in sensors for detecting heat signatures and temperature variations.

 Medical Imaging

Imaging Agents: InAs nanoparticles can be employed as contrast agents in medical imaging techniques such as fluorescence imaging. Their optical properties enhance imaging contrast, aiding in better visualization of tissues and organs.

 Catalysis

Catalytic Reactions: InAs nanoparticles can serve as catalysts or catalyst supports in various chemical reactions. Their semiconductor properties can contribute to enhanced catalytic activity and efficiency in reactions such as hydrogenation and oxidation.

 

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