Showing 1–12 of 23 results
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- High Mechanical Strength: The combination of aluminum, chromium, cobalt, iron, and nickel in the alloy imparts excellent mechanical strength, making it ideal for thin films that require toughness and resistance to mechanical stress.
- Superior Corrosion Resistance: Chromium and nickel contribute to the alloy’s outstanding corrosion resistance, allowing thin films to perform well in corrosive environments, such as in aerospace and marine applications.
- Thermal Stability: AlCrCoFeNi alloy thin films retain their structural properties at elevated temperatures, making them suitable for high-temperature environments, such as in engines and turbines.
- Wear Resistance: Cobalt and chromium enhance the wear resistance of the alloy, making it ideal for hard coatings in industrial tools and machinery parts.
- High-Entropy Alloy Properties: As a high-entropy alloy, AlCrCoFeNi offers a unique combination of properties that cannot be achieved with traditional alloys, including high strength, toughness, and resistance to oxidation and corrosion.
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- Multiferroic Properties: BiFeO₃ demonstrates both ferroelectric and antiferromagnetic properties, making it ideal for multifunctional devices.
- Room Temperature Functionality: One of the few multiferroic materials that operates effectively at room temperature, allowing for broader application in consumer electronics and industrial devices.
- Photovoltaic Effects: BiFeO₃ can be used to create thin films that convert light into electricity, opening avenues for energy harvesting and improving photovoltaic technologies.
- Customizable: The size, shape, and purity of BiFeO₃ sputtering targets can be tailored to meet specific requirements for various deposition techniques.
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- High Saturation Magnetization: CoFe alloys exhibit one of the highest saturation magnetizations among magnetic materials, making them ideal for magnetic storage and sensor applications.
- Excellent Permeability: The alloy’s high permeability enables efficient magnetic performance, particularly in devices requiring soft magnetic properties with minimal energy loss.
- Low Coercivity: CoFe films have low coercivity, which is beneficial for reducing power losses in magnetic components and enhancing the performance of thin-film magnetic sensors and data storage devices.
- Corrosion Resistance: CoFe alloys possess good resistance to oxidation and corrosion, extending the longevity of thin-film applications in harsh environments.
- Customizable Composition: The ratio of cobalt to iron can be adjusted to fine-tune magnetic properties and optimize the sputtering target for specific applications.
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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.
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- High Magnetic Moment: CoFeB alloy exhibits a high magnetic moment, making it ideal for applications requiring strong magnetic fields, such as data storage and magnetic sensors.
- Soft Magnetic Properties: The addition of boron to the CoFe alloy improves the soft magnetic properties, reducing coercivity and allowing for efficient magnetization with minimal energy loss.
- Low Coercivity: CoFeB films have very low coercivity, contributing to higher energy efficiency and better performance in magnetic thin films and devices.
- Thermal Stability: CoFeB exhibits excellent thermal stability, maintaining its magnetic properties at elevated temperatures, making it suitable for high-performance applications.
- Tunneling Magnetoresistance (TMR): CoFeB is widely used in magnetic tunneling junctions due to its ability to produce a high tunneling magnetoresistance effect, improving the performance of MRAM and spintronic devices.
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Iron (Fe Ferrum) sputtering targets are essential for industries that rely on the unique magnetic, electrical, and structural properties of iron, making them indispensable in magnetic storage, electronics, industrial coatings, and advanced material applications.
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$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.
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- 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.
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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.