Showing 13–24 of 35 results
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- High Purity: Fe₂O₃ sputtering targets are available in high-purity formulations to ensure optimal thin film quality for precise applications.
- Magnetic Properties: The material exhibits ferrimagnetism, making it suitable for magnetic thin films and spintronic applications.
- Semiconductor Properties: As a semiconductor, Fe₂O₃ is used in photocatalysis and solar cells, where it can absorb sunlight and drive photoelectrochemical reactions.
- Environmental Stability: Fe₂O₃ is chemically stable and exhibits good performance in a range of environmental conditions, enhancing its use in sensors and energy applications.
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- 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.
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- High Purity: Guarantees consistent deposition and minimal contamination in thin films.
- Strong Magnetic Properties: Provides excellent performance in magnetic and spintronic devices.
- High Electrical Conductivity: Enhances the functionality of conductive thin films.
- Customizable Dimensions: Manufactured to meet the requirements of diverse sputtering systems.
- Versatile Material: Suitable for applications ranging from electronics to biomedical engineering.
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- 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.
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- High Hardness: Provides superior wear resistance for demanding applications.
- Thermal Stability: Retains mechanical and structural integrity at high temperatures.
- Corrosion and Oxidation Resistance: Performs exceptionally well in harsh and oxidative environments.
- Excellent Abrasion Resistance: Suitable for coatings and components exposed to friction and wear.
- Customizable Particle Sizes: Available in a range of sizes to suit specific requirements.
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- High Hardness: Provides excellent wear resistance, making it suitable for demanding applications.
- Thermal Stability: Maintains structural integrity under high-temperature conditions.
- Customizable Composition: The carbon content can be adjusted to optimize properties for specific applications.
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- Balanced Alloy Composition: Combines Fe, Co, Ni, Al, Cu, and Ti for superior performance.
- High Strength and Durability: Exceptional mechanical properties for demanding environments.
- Thermal Stability: Operates efficiently under extreme temperature conditions.
- Corrosion Resistance: Excellent resistance to oxidation and environmental wear.
- Magnetic Properties: Suitable for applications requiring magnetic performance.
- Customizable Particle Sizes: Available in nano and micro scales for various uses.
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- Corrosion Resistance: The high chromium content in FeCr alloys provides excellent resistance to corrosion, making the alloy ideal for environments exposed to moisture, chemicals, or harsh conditions.
- Magnetic Properties: FeCr alloys offer stable magnetic properties, making them suitable for use in various magnetic storage and electronic devices.
- High-Temperature Stability: FeCr thin films maintain their mechanical strength and performance even at elevated temperatures, making them useful for applications in energy, aerospace, and other industries requiring heat-resistant coatings.
- Wear Resistance: The wear resistance of FeCr thin films ensures long-lasting durability for coated components, reducing wear and tear in mechanical systems and industrial tools.
- Customizable Composition: The ratio of iron to chromium can be adjusted to optimize the properties such as corrosion resistance, magnetic performance, or wear resistance, based on the application’s specific requirements.
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- Multi-Element Alloy: Balanced composition of Fe, Cu, Al, Cr, and Ni for enhanced properties.
- High Corrosion Resistance: Excellent resistance to oxidation and environmental degradation.
- Superior Mechanical Strength: Outstanding strength and durability for demanding applications.
- Thermal Stability: Maintains performance under high temperatures.
- Customizable Particle Sizes: Tailored for diverse manufacturing needs.
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- High Magnetostriction: FeGa alloys exhibit superior magnetostrictive properties, providing enhanced performance in functional films.
- Customizable Compositions: Available in various iron-gallium ratios to meet specific application requirements.
- High Purity: Ensures consistent and reliable thin-film deposition with minimal contamination.
- Excellent Magnetic Properties: Combines strength and magnetic responsiveness for advanced thin-film applications.
- Durable and Stable: Provides robust and long-lasting performance in challenging environments.
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- Magnetic Stability: FeHf alloys offer stable magnetic properties that make them suitable for use in a variety of magnetic devices, especially in high-temperature or harsh environments.
- Oxidation Resistance: The addition of hafnium significantly improves the alloy’s resistance to oxidation, making FeHf thin films suitable for applications exposed to elevated temperatures and oxidative conditions.
- High Strength: FeHf alloy thin films provide excellent mechanical strength, ensuring long-term durability and reliability in high-stress environments.
- Thermal Stability: FeHf alloys maintain their structural integrity and performance even at high temperatures, making them ideal for applications in electronics, aerospace, and industrial settings.
- Corrosion Resistance: The alloy’s resistance to corrosion allows it to perform well in harsh environments, protecting components from degradation due to moisture, chemicals, and other corrosive elements.
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- Magnetic Properties: FeMn alloys exhibit useful magnetic properties, including antiferromagnetism, which makes them suitable for use in a variety of magnetic devices, sensors, and memory technologies.
- Corrosion Resistance: The alloy provides excellent resistance to corrosion, making it ideal for use in environments exposed to moisture, chemicals, and other corrosive agents.
- Wear Resistance: FeMn alloy thin films enhance the wear resistance of components, making them more durable under mechanical stress and wear, especially in industrial and mechanical applications.
- Customizable Composition: The ratio of iron to manganese can be adjusted to tailor the magnetic, mechanical, and corrosion-resistant properties of the thin films for specific applications.
- High Strength: FeMn thin films exhibit high mechanical strength, making them ideal for applications where both durability and protection are required, especially in harsh environments.