Tin Sulfide Sputtering Target
Tin Sulfide Sputtering Target
| Tin Sulfide Sputtering Target | |
| Product No | NRE-43155 |
| CAS No. | 1314-95-0 |
| Formula | SnS |
| Molecular Weight | 150.78 g/mol |
| Purity | 99.9% |
| Density | 5.22 g/cm3 |
| Thickness | 3 mm ± 0.5mm (can be customized) |
| Diameter | 50 mm ± 1mm (can be customized) |
| Shape | Round |
| Electrical Resistivity | NA |
| Electronegativity | NA |
Tin Sulfide Sputtering Target
Introduction
Tin sulfide sputtering target is a semiconductor compound that has gained attention due to its unique electrical, optical, and thermoelectric properties. With a suitable bandgap for various applications, tin sulfide is often explored for use in thin-film technologies. Sputtering is a favored method for depositing SnS films, allowing for high-quality, uniform coatings on a variety of substrates.
Applications
Photovoltaic Cells:
Thin-Film Solar Cells: SnS is a promising material for thin-film solar cells due to its high absorption coefficient and appropriate bandgap (around 1.3 eV). This makes it effective for converting sunlight into electricity, offering potential for cost-effective solar energy solutions.
Infrared Detectors:
Thermal Imaging: Tin sulfide can be used in infrared detectors, particularly for thermal imaging applications. Its sensitivity to infrared radiation makes it suitable for night vision and various sensing technologies.
Optoelectronic Devices:
LEDs and Laser Diodes: SnS can be utilized in the development of optoelectronic devices such as light-emitting diodes (LEDs) and laser diodes, especially for applications that require emission in the mid-infrared range.
Thermoelectric Devices:
Energy Harvesting: SnS shows promising thermoelectric properties, which can be harnessed for energy harvesting applications. It can efficiently convert waste heat into electrical energy, making it valuable for sustainable energy solutions.
Thin-Film Transistors (TFTs):
Displays and Electronics: Tin sulfide can be used in the fabrication of thin-film transistors, which are essential components in display technologies, including LCDs and OLEDs. Its semiconducting properties enable improved performance in electronic devices.
Catalytic Applications:
Photocatalysis: SnS can act as a photocatalyst in various chemical reactions, particularly in environmental applications for pollutant degradation and water splitting. Its ability to absorb light effectively enhances its catalytic performance.
Battery Materials:
Energy Storage: Research is being conducted into the use of tin sulfide in battery applications, where its properties could enhance the performance of lithium-ion batteries and other energy storage systems.
