Indium Selenide Powder (In2Se3, >99%, APS: 40-70µm)
Indium Selenide Powder | |
Product No | NRE-26007 |
CAS | 12056-07-4 |
Purity | >99% |
Molecular Formula | In2Se3 |
Molecular Weight | 466.516 g/mol |
Color | Gray Black |
Density | 5.80 g/cm³ |
APS | <70µm (can be customized) |
Melting Point | 600 °C |
Boiling Point | NA |
Indium Selenide Powder
Indium selenide (In2Se3) powder is a semiconductor material with a range of applications due to its unique electrical, optical, and structural properties.
Semiconductor Devices
Thin-Film Transistors: In2Se3 is used in the fabrication of thin-film transistors, which are integral components in electronic displays and other semiconductor devices. The material’s semiconducting properties allow for efficient switching and signal processing.
Photodetectors: Due to its photo responsive nature, In2Se3 is employed in photodetectors for detecting light in various wavelengths, which can be used in imaging and sensing applications.
Optoelectronic Devices
Solar Cells: In2Se3 is used in the development of solar cells. Its ability to absorb and convert light into electrical energy makes it a candidate for high-efficiency photovoltaic devices.
Light Emitting Diodes (LEDs): The material’s optical properties enable its use in LEDs, where it contributes to light emission in specific wavelength ranges.
Thermo electrics
Thermoelectric Materials: In2Se3 can be used in thermoelectric materials, which convert heat into electrical energy. This application is particularly relevant for energy harvesting and power generation from waste heat.
Photoelectrochemical Cells
Hydrogen Production: In2Se3 is used in photoelectrochemical cells for solar water splitting applications, which aim to produce hydrogen fuel from water using sunlight.
Infrared Detectors
IR Sensors: Due to its sensitivity to infrared light, In2Se3 is used in infrared detectors. These detectors are important for thermal imaging and various sensing applications.
Research and Development
Material Science: In2Se3 powder is utilized in research to explore new properties and applications of the material. This includes studying its electronic, optical, and structural characteristics to develop new technologies.
Device Fabrication: Researchers use Powder in the fabrication of experimental devices and structures to test and optimize new technologies in electronics and optoelectronics.
Alloying and Doping
Semiconductor Alloys can be alloyed or doped with other materials to modify its properties for specific applications, such as enhancing its electrical conductivity or optical absorption.
Coatings and Thin Films
Protective Coatings: In2Se3 thin films can be used as coatings to provide specific electronic and optical properties, such as improved conductivity or light absorption, in various devices and applications.