Antimontellurid Evaporation Materials Description
Discover the Antimontellurid evaporation materials from Stanford Advanced Materials. This ceramic evaporation material has the chemical formula Sb2Te3. Highly pure Sb2Te3 evaporation materials support deposition processes and guarantee the production of layers with quantifiable quality. Stanford Advanced Materials (SAM) produces evaporation materials with purities from 99.9% to 99.9995% and utilises quality assurance processes to ensure product reliability.
Specifications of Antimontellurid Evaporation Materials
Material Type |
Antimontellurid |
Symbol |
Sb2Te3 |
Appearance/Colour |
Grey solid |
Melting Point |
620 °C (1 148 °F; 893 K) |
Density |
6.50 g cm⁻³ |
Purity |
99.9% to 99.999% |
Form |
Powder/Granulate/Custom |
Antimontellurid Evaporation Materials Application
Antimontellurid evaporation materials are employed in deposition techniques including semiconductor deposition, chemical vapour deposition (CVD) and physical vapour deposition (PVD). They are used in optical applications for wear protection, decorative coatings and displays.
Antimontellurid Evaporation Materials Packaging
The Antimontellurid evaporation pellets are packed in a plastic vacuum bag. This packaging prevents damage during storage and transport and preserves the original quality. An analysis certificate (COA) of the raw material is included.
Contact
Stanford Advanced Materials (SAM) produces high-purity Antimontellurid evaporation materials. These materials are used in semiconductors, in chemical vapour deposition (CVD) and physical vapour deposition (PVD) for displays and optical applications. The technique, production and analysis teams collaborate and ensure that all technical specifications are met.