Cesium Selenide Powder (Cs2Se, Purity: >99%, APS: 40-70µm)
Cesium Selenide Powder | |
Product No | NRE-26001 |
CAS | 31052-46-7 |
Purity | 99.9 % |
Molecular Formula | Cs2Se |
Molecular Weight | 344.7709 g/mol |
Color | White |
Density | 3.988 g/cm3 |
APS | <70µm (can be customized) |
Melting Point | NA |
Boiling Point | NA |
Cesium Selenide Powder
Cesium selenide (Cs₂Se) powder is a compound with various applications due to its distinctive properties. Here are some notable applications:
Semiconductors
Electronic Devices: Cs₂Se is used in semiconductor applications where its electronic properties can be leveraged. It can be utilized in devices such as:
Photodetectors: Cs₂Se ability to absorb and convert light into electrical signals makes it suitable for photodetectors used in imaging and optical sensing.
Thin-Film Transistors: Employed in the development of thin-film transistors for use in display technologies and other electronic devices.
Photovoltaics
Solar Cells: Cs₂Se is explored for its potential use in thin-film solar cells. Its semiconductor properties can be used to absorb sunlight and convert it into electrical energy, contributing to the development of efficient solar energy technologies.
Optoelectronics
Light Emission: Due to its optical properties, Cs₂Se can be used in optoelectronic devices, including light-emitting diodes (LEDs) and laser diodes, particularly those designed to operate in specific wavelength ranges.
Catalysis
Chemical Reactions: Cs₂Se can act as a catalyst or a catalyst support in various chemical reactions, including those involving the conversion of organic compounds and the enhancement of reaction rates.
Environmental Applications
Pollutant Removal: Cs₂Se can be used in environmental applications for the removal of pollutants. It may act as an adsorbent or catalyst in processes designed to degrade or remove hazardous substances from water or air.
Material Science
Nanocomposites: Cs₂Se nanoparticles can be incorporated into nanocomposites to enhance the mechanical, thermal, or electronic properties of materials. This can be useful in creating advanced materials with improved performance characteristics.
Ceramics and Thin Films: Cs₂Se is used in the development of advanced ceramics and thin films with specific electronic or optical properties.
Sensors
Gas Sensors: Cs₂Se nanoparticles can be utilized in sensors for detecting gases. Their electronic and optical properties can enhance the sensitivity and specificity of gas detection devices.
Research and Development
Material Properties: Cs₂Se is studied for its unique material properties in various research contexts. This includes its behavior under different conditions and its interactions with other substances.