Antimony Sputtering Target (Sb, Purity: 99.99%)
Antimony Sputtering Target
Antimony Sputtering Target | |
Product No | NRE-43011 |
CAS No. | 7440-36-0 |
Formula | Sb |
Molecular Weight | 121.76 g/mol |
Purity | >99.99% |
Density | 6.691 g/cm3 |
Thickness | 3 mm ± 0.5mm (can be customized) |
Diameter | 50 mm ± 1mm (can be customized) |
Shape | Round |
Resistivity | NA |
Electronegativity | NA |
Antimony Sputtering Target
Antimony Sputtering Target
Antimony sputtering targets are used in various applications across different industries due to their specific properties.
Semiconductor Industry:
Doping: Antimony is used as a dopant in the fabrication of semiconductor materials. It helps modify the electrical properties of semiconductors to achieve desired conductivity and performance characteristics.
Thin-Film Transistors (TFTs): Antimony-based thin films are used in the production of TFTs, which are crucial for displays (e.g., LCDs and OLEDs) and other electronic devices.
Optoelectronics:
Photodetectors: Antimony is used in the manufacture of photodetectors, where it helps in detecting and converting light into electrical signals.
Light-Emitting Diodes (LEDs): Antimony-based compounds are used in some LEDs, contributing to their color and performance characteristics.
Glass and Coatings:
Glass Coatings: Antimony oxide (Sb₂O₃) is used in coatings to improve the optical properties of glass. This can include enhancing refractive indices or providing specific optical effects in specialty glass applications.
Protective Coatings: Antimony targets can be used to create thin, protective coatings on various substrates, enhancing durability and resistance to wear and corrosion.
Thermoelectric Materials:
Energy Harvesting: Antimony is used in thermoelectric materials that convert heat into electrical energy. These materials are used in applications like power generation from waste heat and cooling systems.
Catalysts:
Catalytic Processes: Antimony-based materials can serve as catalysts in various chemical processes. Their specific chemical properties make them suitable for applications such as oxidation reactions or other catalytic functions.
Battery Technology:
Anode Materials: Antimony is used in the development of anode materials for advanced batteries. Its properties can help improve battery performance, energy density, and cycle life.
Sensing and Detection:
Sensors: Antimony-based thin films are used in various sensors due to their unique electronic properties. These sensors can be applied in environmental monitoring, industrial processes, and other detection systems.
Specialty Electronics:
RFID Tags: Antimony compounds may be used in some Radio Frequency Identification (RFID) tags and other electronic devices where specific electronic or optical properties are required.
Photovoltaic Cells:
Thin-Film Solar Cells: In some advanced photovoltaic technologies, antimony-based materials are used to create thin films that contribute to the efficiency and effectiveness of solar cells.