Showing 61–72 of 334 results
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- High Optical Transparency: Transparent in the UV to IR spectrum, ideal for optical applications.
- Low Absorption: Minimal light absorption, ensuring high-quality performance in various optical devices.
- Durability: Resistant to chemical attack and radiation, making it suitable for harsh environments.
- High Purity: ≥99.9% purity for consistent performance in high-precision applications.
- Excellent Thermal Stability: Retains properties even under high temperatures.
- Customizable Particle Size: Available in various particle sizes to meet the specific needs of customers.
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- High Melting Point: CaO has a melting point of around 2572°C, making it ideal for applications requiring heat resistance.
- Thermal Stability: The material offers excellent performance in high-temperature environments, making it suitable for industrial and aerospace uses.
- Good Optical Properties: CaO is transparent over a broad spectrum, from UV to visible light, which makes it useful in various optical applications.
- Chemical Stability: CaO thin films offer strong resistance to corrosion, enhancing the longevity of coatings in harsh environments.
- High Density: The material has a density of about 3.34 g/cm³, providing robustness in thin-film applications.
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- High Purity: Cadmium pellets are typically available with purity levels of 99.9% or higher, ensuring the creation of defect-free, high-quality thin films.
- Low Melting Point: Cadmium has a relatively low melting point, making it easy to evaporate in deposition processes.
- Electrical Properties: Cadmium’s electrical conductivity and ability to form alloys make it valuable in semiconductor and electronic applications.
- Optical Properties: Cadmium thin films are used in optical devices due to their favorable reflective and refractive properties in certain wavelengths, especially in the IR and visible regions.
- Corrosion Resistance: Cadmium coatings offer protection from corrosion, especially in aerospace and marine equipment, by serving as a sacrificial layer to protect underlying materials.
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- Optical Properties: CdSe exhibits strong light absorption in the visible and infrared spectrum, making it an ideal material for optoelectronic applications.
- Electronic Properties: With a direct bandgap of approximately 1.7 eV (which can be tuned depending on particle size and synthesis methods), CdSe offers high photoresponsivity and efficient charge carrier transport.
- Thermal Stability: CdSe maintains good chemical and structural stability within a specific temperature range.
- Crystal Structure: It exists in either a cubic (zinc blende) or hexagonal (wurtzite) crystalline phase, each with distinct electronic and optical characteristics.
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- High Transparency: CeO₂ offers excellent transparency in both the UV and visible spectral ranges, making it suitable for various optical applications.
- Thermal Stability: It has a high melting point and thermal stability, allowing it to perform well in high-temperature environments.
- Oxidation Resistance: CeO₂ exhibits exceptional resistance to oxidation, which enhances the durability of coatings in oxidative environments.
- Chemical Inertness: CeO₂ films are chemically stable and resistant to many corrosive environments, ensuring long-lasting performance.
- Catalytic Properties: CeO₂ is valued for its oxygen storage and release capacity, which is beneficial in catalytic processes.
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- High Purity: Purity levels up to ≥99.9999% for superior performance.
- Thermal Stability: Withstands high temperatures without degradation.
- Catalytic Efficiency: Promotes oxidation-reduction reactions effectively.
- Fine Particle Sizes: Available in nano (<100 nm) and micro (1–50 µm) grades or customized.
- UV Protection: Absorbs UV radiation, suitable for protective coatings.
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- High Magnetic Properties: Cobalt is known for its strong magnetic characteristics, making it suitable for magnetic thin films and data storage applications.
- Corrosion Resistance: Cobalt provides excellent resistance to oxidation and corrosion, particularly in harsh chemical or environmental conditions.
- High Melting Point: With a melting point of 1,495°C, cobalt is suitable for high-temperature applications, including aerospace and automotive industries.
- Wear Resistance: Cobalt thin films are highly resistant to wear and tear, making them ideal for protective coatings in demanding environments.
- Electrical Conductivity: Cobalt has good electrical conductivity, making it useful in microelectronics as a contact material or diffusion barrier.
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- High Purity: Ensures optimal performance in advanced applications.
- Magnetic Properties: Excellent ferromagnetic behavior for magnet manufacturing.
- Corrosion Resistance: Superior resistance to oxidation and harsh environments.
- Thermal Stability: Reliable performance at elevated temperatures.
- Customizable Particle Sizes: Nano to micrometer options for diverse applications.
- Versatile Applications: Suitable for batteries, alloys, magnets, and catalysis.
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- High Purity: Available with purity levels of ≥99.5%.
- Thermal Stability: Stable under high-temperature conditions.
- Catalytic Efficiency: Effective for a variety of chemical reactions.
- Electronic Properties: Suitable for semiconductors and electronic components.
- Customizable Particle Sizes: Nano (<100 nm) and micro (1–50 µm) grades available or customized.
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- High Purity: Available with purity levels of ≥99.5%.
- Thermal Stability: Performs effectively in high-temperature environments.
- Magnetic Properties: Exhibits unique magnetic behavior suitable for electronic applications.
- Catalytic Activity: Effective in promoting chemical reactions.
- Customizable Particle Sizes: Nano (<100 nm) and micro (1–50 µm) grades available or customized.
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- High Strength: Provides excellent mechanical strength and stability at elevated temperatures.
- Corrosion Resistance: Resists oxidation and corrosion, enhancing the longevity of components.
- Wear Resistance: Ideal for applications requiring materials that can withstand high levels of wear and tear.
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- High Magnetic Saturation: Offers strong magnetic performance, making it suitable for a range of electromagnetic applications.
- Durability: Provides good mechanical strength and resistance to wear and corrosion.
- Versatile: Can be used in various thin-film deposition techniques for diverse applications.
