Showing 61–72 of 193 results
-
- Semiconducting Properties: CuSe is a p-type semiconductor material, making it useful in the development of electronic and optoelectronic devices.
- High Absorption Coefficient: It has a high absorption coefficient in certain wavelengths, making it suitable for photovoltaic and optical coating applications.
- Stability: Copper selenide is stable under a wide range of conditions, providing longevity for deposited thin films in various environmental settings.
- Excellent Conductivity: The material demonstrates good electrical conductivity, which is valuable in the context of solar energy harvesting and thermoelectric applications.
-
- Good Conductivity: Offers high electrical and thermal conductivity, making it ideal for electrical applications.
- Strength and Ductility: The alloy combines strength with ductility, allowing for effective deformation during soldering and manufacturing.
- Corrosion Resistance: Provides enhanced resistance to corrosion compared to pure copper.
-
- Excellent Electrical Conductivity: High conductivity due to the copper content, making them ideal for electronic applications.
- Corrosion Resistance: Superior resistance to tarnishing and degradation in challenging environments.
- High Strength and Ductility: Combines durability with flexibility for various manufacturing needs.
- Thermal Conductivity: Efficient heat transfer for thermal management applications.
- Customizable Composition: Available in different Cu-Zn ratios to suit specific needs.
-
- Infrared Absorption and Emission: Erbium’s most notable feature is its strong absorption and emission in the infrared spectrum, particularly around 1.55 microns, making it valuable for optical communication.
- High Thermal Stability: Erbium is thermally stable, which makes it suitable for deposition processes that require high temperatures.
- Low Toxicity: Compared to some other rare-earth metals, Erbium is considered to have low toxicity, making it safer for applications in medical devices.
-
- High purity (≥99.9%).
- Outstanding thermal and chemical stability.
- Superior optical properties for infrared applications.
- Uniform pellet size for reliable thin-film deposition.
- Customizable specifications to meet specific requirements.
-
- Luminescent Properties: Europium is known for its strong luminescent behavior, especially its red and blue emissions, making it a crucial element in display and lighting applications.
- Magnetic Behavior: Europium exhibits unique magnetic properties useful in advanced research, magnetic refrigeration, and specific data storage applications.
- High Thermal Stability: Europium offers high stability at elevated temperatures, suitable for use in high-temperature deposition processes like e-beam and thermal evaporation.
-
- High purity (≥99.9%).
- Excellent optical and luminescent properties.
- Uniform pellet size for consistent deposition results.
- Customizable dimensions to meet application needs.
- Stable chemical and structural characteristics.
-
- Strong Luminescence: Europium pentoxide exhibits intense red luminescence, which is particularly useful in display and lighting technologies.
- High Purity: Typically available at high purity levels (≥ 99.9%) to ensure optimal performance in high-precision applications, such as thin-film deposition.
- Thermal Stability: Eu2O5 is stable at high temperatures, making it suitable for vacuum evaporation processes, including e-beam evaporation.
- Consistent Film Quality: Due to its stable evaporation characteristics, Eu2O5 produces consistent thin films ideal for high-tech optical and electronic applications.
-
$10.00 – $10,000.00
- High Purity: Available in 99.9% (3N) and higher purity levels to ensure the quality of thin films without contamination, essential for precision applications.
- Magnetic Properties: Fe is ferromagnetic, making it an ideal material for magnetic devices and sensors.
- Stable Evaporation: These pellets are engineered to vaporize evenly, providing consistent thin-film deposition across various substrates.
- Versatile: Suitable for both thermal and electron beam evaporation, offering flexibility for use in different vacuum deposition systems.
- High Deposition Rate: Iron pellets offer efficient evaporation, allowing for faster coating processes and uniform thin films.
-
- Magnetic Properties: Fe₂O₃ exhibits ferrimagnetic behavior, making it suitable for magnetic coatings and data storage applications.
- Chemical Stability: It is highly stable, corrosion-resistant, and performs well in various environmental conditions.
- High Optical Absorption: Fe₂O₃ has strong optical absorption in the visible region, which is advantageous for solar cell applications and optical filters.
- Thermal Stability: It has excellent thermal stability, allowing it to maintain its properties even at high temperatures.
- Environmental Compatibility: Fe₂O₃ is non-toxic and environmentally friendly, making it ideal for green energy applications like photocatalysis and solar cells.
-
- High Purity: Available in 99.9% (3N) and higher purity levels to ensure minimal contamination in thin-film deposition, resulting in high-performance films.
- Magnetic Properties: Fe₃O₄ is known for its ferrimagnetic behavior, which is useful in both industrial and scientific magnetic applications.
- Stable Evaporation: The pellets are designed for stable and uniform vaporization, ensuring consistent film thickness and quality during deposition.
- Versatile: Suitable for both thermal and electron beam evaporation techniques, making them adaptable for different vacuum deposition setups.
- High Density: Fe₃O₄ pellets provide dense and cohesive vapor deposition, contributing to uniform coating on the substrate.
-
- High purity (≥99.9%).
- Exceptional magnetic and chemical stability.
- Uniform pellet size for precise and consistent applications.
- Customizable sizes and specifications.
- Excellent thermal resistance and mechanical stability.