Showing 109–120 of 193 results
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- High UV Transparency: Na₃AlF₆ is transparent in the UV and IR spectral regions, making it suitable for optical coatings in UV-sensitive applications.
- Good Adhesion: Forms thin films with excellent adhesion to a variety of substrates.
- Low Refractive Index: Offers a low refractive index, which is beneficial for anti-reflective coatings and optical interference filters.
- Corrosion Resistance: Provides a protective layer with good resistance to chemical and environmental factors.
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- High Purity: Ensures superior performance and reliability in sensitive applications.
- Excellent Corrosion Resistance: Ideal for use in harsh environments where chemical exposure is a concern.
- Superconducting Properties: Capable of exhibiting superconductivity at low temperatures, making it valuable in high-tech applications.
- Ductility: Easily shaped and formed, allowing for versatile applications.
- Custom Sizes: Available in various pellet sizes to meet specific requirements for different processes.
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- High Refractive Index: Nb₂O₅ is prized for its high refractive index, making it a critical material in optical thin films and coatings where light management is essential.
- Excellent Dielectric Properties: With a high dielectric constant, Nb₂O₅ is perfect for applications in electronic devices where efficient charge storage is required.
- Wide Transparency Range: Nb₂O₅ is transparent across a broad wavelength range, from visible to infrared, making it suitable for use in optical and photonic devices.
- High Purity: High-purity Nb₂O₅ ensures the production of thin films with minimal contamination, enhancing the quality of the deposited films.
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- Superconducting Properties: Exhibits excellent superconductivity at critical temperatures.
- High Hardness: Exceptional wear resistance and durability for coatings.
- Thermal Stability: Maintains stability under high-temperature conditions.
- Chemical Resistance: Inert to many corrosive environments, ensuring longevity.
- Customizable Particle Size: Tailored for specific applications in research and industry.
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- High Strength: The alloy provides exceptional mechanical strength, making it suitable for demanding applications.
- Temperature Resistance: Offers good resistance to high temperatures, maintaining performance under thermal stress.
- Corrosion Resistance: Resistant to oxidation and corrosion, enhancing the lifespan of components in harsh environments.
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- High purity levels (≥99.9% or ≥99.99%).
- Stable physical and chemical properties.
- Uniform particle size suitable for industrial and laboratory use.
- Customizable specifications available upon request.
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- High Purity: Nickel pellets are available with purity levels of ≥ 99.9%, ensuring superior quality films.
- Uniform Shape: Designed for smooth and consistent evaporation, providing uniform film thickness.
- High Conductivity: Excellent thermal and electrical conductivity make it ideal for electronic and thermal applications.
- Corrosion Resistance: Nickel’s natural resistance to oxidation ensures long-lasting coatings in corrosive environments.
- Magnetic Properties: Suitable for applications that require magnetic thin films.
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- High Hardness: The alloy provides superior hardness, significantly improving wear resistance.
- Corrosion Resistance: Offers good protection against oxidation and chemical degradation.
- Enhanced Magnetic Properties: Suitable for applications requiring ferromagnetic materials.
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- High purity (≥99.9%).
- Outstanding electrical resistivity and thermal stability.
- Exceptional corrosion and oxidation resistance.
- Uniform pellet size for consistent deposition rates.
- Suitable for PVD and CVD thin-film deposition.
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- High purity (≥99.9%).
- Excellent magnetic and thermal properties.
- Superior corrosion and oxidation resistance.
- Uniform size for consistent evaporation rates.
- Customizable NiFe alloy ratios (e.g., 80:20, 70:30).
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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.