Showing 13–17 of 17 results
-
- High Absorption Coefficient: Sb₂Se₃ has a high absorption coefficient, which makes it effective for thin-film solar cells and light-harvesting applications.
- Bandgap: The material has a bandgap around 1.1 to 1.3 eV, ideal for photovoltaic devices aimed at capturing sunlight efficiently.
- Non-Toxic and Earth-Abundant: Sb₂Se₃ offers an environmentally friendlier and more sustainable alternative to other thin-film materials like cadmium-based compounds.
- Stable Crystal Structure: Sb₂Se₃ thin films exhibit a stable orthorhombic crystal structure, which contributes to their robustness in various electronic and energy-related applications.
-
- High Thermoelectric Efficiency: Exhibits high ZT values, making it ideal for thermoelectric power generation and refrigeration applications.
- Low Thermal Conductivity: Sb₂Te₃ has low thermal conductivity, which enhances its thermoelectric performance.
- Reversible Phase-Change Properties: Capable of transitioning between amorphous and crystalline states, essential for phase-change memory applications.
- Good Adhesion and Smooth Films: Forms high-quality, uniform films with good adhesion on various substrates.
- Topological Insulator Behavior: Exhibits unique surface conductivity while insulating the interior, relevant for next-generation electronics.
-
- High Thermoelectric Efficiency: Sb₂Te₃ exhibits excellent thermoelectric performance with a high figure of merit (ZT) near room temperature, making it one of the most effective materials for energy conversion and cooling applications.
- Phase-Change Properties: Its ability to rapidly switch between different phases with thermal cycling makes Sb₂Te₃ ideal for memory devices such as phase-change random-access memory (PCRAM).
- Topological Insulator Properties: Sb₂Te₃ is used in cutting-edge research into topological insulators, with potential applications in quantum computing and advanced electronics.
- Customizable Thin Films: Sputtering targets allow for controlled deposition of Sb₂Te₃ films with tailored thickness, composition, and properties for specific device requirements.
-
- High Purity: Ensures consistent film quality and reduces defects in deposited layers.
- Stable Composition: Titanium and antimony alloying for enhanced mechanical and chemical properties.
- Versatile Applications: Compatible with a wide range of deposition techniques, including PVD and sputtering.
- Customizable Options: Available in various compositions and dimensions to meet specific requirements.
- Durability: Resistant to oxidation and corrosion, ensuring longevity during sputtering processes.
-
- Thermoelectric Properties: Zn₃Sb₂ is known for its high thermoelectric efficiency, making it an excellent material for energy conversion applications.
- High Purity: Available in various purity grades, ensuring the production of high-quality thin films.
- Stable Deposition: Consistent film quality and performance, ideal for advanced manufacturing processes.
- Durability: Offers excellent thermal stability, reducing the risk of material degradation during deposition and application.
- Wide Application Range: Suitable for a variety of industries, including semiconductor, energy, and sensing technologies.