Showing 121–132 of 195 results
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- Wide Bandgap: NiO is a wide bandgap semiconductor (~3.6 eV), making it suitable for high-temperature and high-power applications.
- Good Thermal Stability: NiO has a high melting point (~1955°C) and excellent thermal stability, making it ideal for high-temperature evaporation processes.
- High Electrical Conductivity: NiO is often used to improve electrical conductivity in optoelectronic devices.
- Excellent Catalytic Properties: NiO’s ability to act as a catalyst in chemical reactions enhances its use in fuel cells and other catalytic applications.
- Versatile Thin Film Deposition: NiO forms uniform and adherent thin films, making it ideal for various electronic, optoelectronic, and catalytic applications.
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- Low Resistivity: NiSi₂ has excellent electrical conductivity, making it ideal for forming low-resistance contacts in silicon-based devices.
- Thermal Stability: NiSi₂ films maintain their performance at high temperatures, which is critical for high-temperature semiconductor processing.
- Good Adhesion: Thin films of NiSi₂ adhere well to silicon and other substrates, ensuring durability in semiconductor devices.
- High Purity: The high purity (typically ≥ 99.9%) of the material ensures that the deposited films have superior performance in sensitive electronic applications.
- Excellent Silicon Compatibility: NiSi₂ integrates well with silicon, which is crucial for creating stable, conductive contacts in silicon devices.
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- High Strength: Offers superior tensile strength and toughness compared to standard nickel.
- Wear Resistance: Enhanced durability makes it ideal for high-friction applications.
- Corrosion Resistance: Good resistance to oxidation and chemical attack, extending the lifespan of coated components.
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- High Purity: Typically ≥ 99.9% pure, ensuring high-quality films and minimizing impurities.
- Consistent Quality: Manufactured under controlled conditions to ensure uniformity in size and composition.
- Excellent Thermal Conductivity: Provides efficient heat transfer during the evaporation process.
- Customizable Sizes: Available in various pellet sizes to meet specific evaporation requirements.
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- Narrow Bandgap: PbS has a small bandgap (~0.37 eV), allowing it to detect and respond to IR radiation, making it ideal for infrared applications.
- High Infrared Sensitivity: PbS thin films exhibit excellent sensitivity to infrared light, especially in the mid-IR range, enhancing performance in IR detectors and sensors.
- Efficient Light Absorption: PbS absorbs light efficiently, making it a great material for photovoltaic devices and optoelectronic components.
- Good Thermal Stability: PbS films maintain their properties under moderate temperature conditions, suitable for use in thermal and IR-sensitive devices.
- Adaptability to Thin Films: PbS can be easily deposited as a thin film via evaporation, making it suitable for creating highly sensitive IR detectors and optical coatings.
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- Narrow Bandgap Semiconductor: PbTe has a bandgap of approximately 0.32 eV, which enables high sensitivity to infrared radiation in the 3-5 µm range.
- High Thermoelectric Efficiency: PbTe has excellent thermoelectric properties, making it suitable for energy conversion in both power generation and refrigeration applications.
- Good Thermal and Electrical Conductivity: PbTe exhibits strong thermal and electrical conductivity, essential for efficient thermoelectric devices and IR detection systems.
- Infrared Absorption: PbTe is highly effective at absorbing infrared light, particularly in the mid-IR region, making it ideal for infrared detectors and optoelectronic devices.
- Thin Film Deposition: PbTe can be deposited as a uniform thin film through evaporation techniques, ensuring high performance in electronic and optoelectronic applications.
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- High Purity: Palladium pellets are available with purity levels of 99.95% (3N5) or higher, ensuring high-quality thin films with minimal impurities.
- Catalytic Properties: Palladium is highly valued for its catalytic activity, particularly in chemical reactions involving hydrogen.
- Corrosion Resistance: Palladium thin films offer excellent resistance to corrosion, making them suitable for applications in harsh environments.
- Electrical Conductivity: Palladium’s superior conductivity makes it ideal for use in electronic and semiconductor applications.
- Durability: Palladium coatings are long-lasting and resistant to wear, providing reliable performance in demanding applications.
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- High Purity: Praseodymium pellets are typically available at a purity level of 99.9% or higher, ensuring the quality of deposited thin films.
- Excellent Magnetic and Optical Properties: Praseodymium has favorable magnetic and optical properties, making it ideal for applications in optical devices and electronics.
- Thermal Stability: Praseodymium thin films demonstrate good stability under high temperatures, suitable for use in high-performance environments.
- Versatility in Applications: From optics to electronics, Praseodymium is versatile and can be integrated into a range of advanced technological applications.
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- High Purity: Available in high-purity forms (typically ≥ 99.9%), ensuring the quality and consistency of the deposited films in sensitive optical and electronic applications.
- Excellent Optical Properties: Pr6O11 provides reliable performance in optical films, contributing to the modulation of light in various optical components.
- Thermal and Chemical Stability: Its stability at high temperatures makes it a suitable material for thermal evaporation and other vacuum deposition methods.
- Versatile Applications: Pr6O11 pellets are used across multiple industries, including electronics, optics, ceramics, and catalysis.
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- High Purity: Platinum pellets are typically available with purity levels of 99.95% (3N5) or higher, ensuring that the resulting thin films are of the highest quality and free from contamination.
- High Melting Point: With a melting point of 1768°C, platinum is suitable for high-temperature evaporation processes.
- Excellent Corrosion Resistance: Platinum coatings offer superior protection against corrosion and oxidation, making them ideal for use in harsh environments.
- Good Electrical Conductivity: Platinum’s excellent conductivity makes it a popular choice for thin-film electrodes and interconnects in microelectronics and other applications.
- Durability: Platinum coatings are resistant to wear, making them long-lasting and suitable for high-use applications.
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- Extremely High Melting Point: Rhenium has a melting point of 3,186°C, making it ideal for applications involving extreme temperatures.
- Excellent Thermal Stability: Rhenium maintains its structural integrity and electrical conductivity at high temperatures, making it suitable for demanding applications.
- Corrosion and Oxidation Resistance: Rhenium offers high resistance to oxidation and corrosion, ensuring durability in harsh environments.
- Superior Mechanical Strength: Rhenium thin films are strong and stable, providing long-lasting performance in extreme conditions.
- Good Electrical Conductivity: Rhenium’s conductivity makes it suitable for high-performance electronic applications.
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- High Purity: Rhodium pellets are typically offered at 99.95% (3N5) or higher purity, ensuring that the deposited films are free from contamination, which is vital for semiconductor and optical applications.
- Excellent Reflectivity: Rhodium’s high reflectivity, particularly in the visible and infrared spectrum, makes it ideal for coatings on optical instruments and reflective surfaces.
- Corrosion and Oxidation Resistance: Rhodium’s chemical inertness ensures that coatings remain untarnished and resistant to environmental degradation, even under extreme conditions.
- High Melting Point: With a melting point of 1964°C, Rhodium is suitable for use in high-temperature evaporation systems.
- Uniform Coatings: Rh Pellets provide consistent evaporation, enabling the deposition of uniform and high-quality thin films on various substrates.
