Showing 13–22 of 22 results
-
- High purity (≥99.99%).
- Exceptional thermoelectric properties.
- High electrical and thermal conductivity.
- Uniform pellet size for consistent deposition and performance.
- Customizable sizes and packaging for various applications.
-
- High Purity: Available with ≥99.9% purity for optimal material properties.
- Outstanding Thermoelectric Performance: High Seebeck coefficient and low thermal conductivity.
- Layered Crystal Structure: Enables superior electrical and thermal characteristics.
- Customizable Particle Sizes: Nano (<100 nm) and micro (1–50 µm) sizes tailored to specific requirements.
- Stable and Durable: Chemically stable and resistant to environmental degradation.
- Environmentally Friendly: Non-toxic and suitable for sustainable applications.
-
- 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.
-
- Low Melting Point: Excellent for low-temperature soldering and thermal interface materials.
- Thermoelectric Properties: Exhibits promising performance in energy harvesting systems.
- Customizable Particle Size: Available in various sizes tailored to application needs.
- High Purity: Ensures reliable performance in precision applications.
- Environmentally Friendly: Contains no lead, making it suitable for eco-friendly applications.
-
- High Purity: BiSb pellets are typically available in high purity (99.9% or higher), ensuring the production of high-quality thin films free from contaminants.
- Thermoelectric Efficiency: The combination of Bismuth and Antimony provides exceptional thermoelectric properties, which is crucial for enhancing energy conversion efficiency in thin films.
- Uniform Evaporation: The spherical or irregular shape of the pellets allows for even melting and vaporization during the evaporation process, resulting in uniform deposition on substrates.
- Low Melting Point: BiSb alloys have a relatively low melting point, making them easier to handle in evaporation systems without the need for extreme temperatures.
-
- Excellent Thermoelectric Performance: BiSbTe is known for its high thermoelectric efficiency, which makes it ideal for thermoelectric cooling and energy conversion applications.
- Wide Temperature Range: BiSbTe thin films perform effectively across a broad range of temperatures, particularly between 200 K and 400 K, making them suitable for various environmental conditions.
- Customizable Compositions: The composition of BiSbTe sputtering targets can be adjusted by varying the ratio of bismuth, antimony, and tellurium to meet specific thermoelectric performance requirements.
- High Purity: BiSbTe sputtering targets are available in high-purity grades to ensure the highest quality thin films for critical applications in energy harvesting and temperature regulation.
- Stable & Durable: Bismuth Antimony Telluride thin films exhibit excellent stability, long-term durability, and resistance to degradation under prolonged thermal cycling.
-
- High Purity: ≥ 99.9% purity ensures high-quality thin films with precise optical and magnetic properties.
- Superior Magneto-Optical Performance: Provides excellent Faraday rotation and low optical loss.
- Stable Composition: Chemically stable and reliable for prolonged usage.
- Customizability: Available in various shapes, sizes, and thicknesses to fit specific sputtering systems.
- Compatibility: Suitable for both RF and DC magnetron sputtering methods.
-
- High Purity: Available in purities up to 99.999% for optimal film quality.
- Superior Deposition Uniformity: Enables precise and consistent thin-film formation.
- Thermal Stability: Performs well under high-temperature deposition conditions.
- Versatile Compatibility: Suitable for various sputtering systems, including DC and RF setups.
-
- High Purity: Offers high purity to ensure the quality of thin films and optimal device performance.
- Excellent Thermoelectric Properties: Ideal for thermoelectric applications where high efficiency is crucial.
- Uniform Deposition: Provides uniform and stable sputtering, ensuring consistent thin film quality.
- Thermal Stability: Excellent resistance to heat and thermal cycling, making it suitable for high-temperature applications.
-
- High Thermoelectric Efficiency: Magnesium Bismuth is recognized for its high Seebeck coefficient and low thermal conductivity, making it an efficient material for thermoelectric applications.
- Low-Temperature Thermoelectrics: Mg3Bi2 is particularly effective at lower temperatures, which makes it suitable for a wide range of thermoelectric devices that operate in ambient conditions.
- Customizable Film Properties: The thin films produced using Mg3Bi2 targets can be tailored in terms of thickness and crystallinity, allowing for optimization in various applications.
- Chemical Stability: Magnesium Bismuth films exhibit good stability, ensuring reliable performance over time in demanding environments.