Showing 13–24 of 164 results
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- 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.
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- 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.
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- High Thermal Conductivity: BN targets are ideal for applications requiring effective heat management.
- Electrical Insulation: Provides excellent dielectric properties, essential for insulating layers in various electronic devices.
- Chemical Inertness: Highly resistant to most chemicals, ensuring long-term durability in aggressive environments.
- Easy to Sputter: BN sputtering targets have excellent sputtering properties, ensuring consistent and uniform deposition.
- High Purity: Available in high-purity grades for precision applications.
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- High Dielectric Constant: BST has an exceptionally high dielectric constant, which can be adjusted by varying the Ba/Sr ratio, making it ideal for capacitive applications.
- Tunable Properties: The dielectric constant of BST is voltage-tunable, which is valuable in applications that require adjustable electronic properties, such as tunable filters or phased array antennas.
- Ferroelectric and Pyroelectric: BST exhibits both ferroelectric and pyroelectric properties, making it useful in memory devices and sensors.
- Thermal Stability: BST thin films maintain good stability under high temperatures, which is important for applications in electronics and microwave systems.
- Customizable Composition: The Ba/Sr ratio can be tailored to optimize specific properties, such as tunability, dielectric constant, and thermal stability, for different applications.
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- Purity: Graphite sputtering targets are available in high purity (typically 99.9% or higher) to ensure optimal film quality, especially in semiconductor and energy storage applications.
- High Conductivity: Graphite offers excellent electrical conductivity, making it suitable for thin films in electronic components.
- Thermal Stability: Graphite can withstand high temperatures, making it ideal for applications in high-heat environments.
- Chemical Resistance: Graphite is resistant to many chemicals, enabling its use in corrosive environments and protective coatings.
- Customizable Size and Shape: Available in various forms, such as discs, plates, and custom shapes to fit specific deposition systems.
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- Wide Optical Transparency: Effective from UV to IR spectra (0.13–11 μm).
- High Chemical Stability: Resistant to moisture and chemical degradation.
- Low Refractive Index: Reduces the need for complex multilayer coatings.
- Thermal Stability: Suitable for high-temperature thin-film deposition.
- High Purity: Ensures uniform film quality and minimizes defects.
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- High Electrical Conductivity: CdO is known for its good electrical conductivity, making it an excellent material for use in electronic and optoelectronic devices.
- Optical Transparency: CdO films offer transparency in the visible light spectrum, making them ideal for TCO applications.
- Good Chemical Stability: CdO targets provide stable films that resist degradation in various environmental conditions.
- Infrared Absorption: CdO’s strong absorption properties in the infrared range are advantageous for applications in IR optics and detectors.
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- Direct Bandgap Semiconductor: CdS has a direct bandgap (~2.42 eV), making it an excellent material for optoelectronic applications requiring high-efficiency light absorption and emission.
- High Transparency: CdS exhibits high transparency in the visible spectrum, making it an ideal candidate for window layers in photovoltaic devices.
- Stable and Efficient: CdS is a stable semiconductor with efficient electron-hole pair generation, which enhances the performance of solar cells and optoelectronic devices.
- Low-cost Semiconductor: Compared to other semiconductors, CdS offers a cost-effective solution for large-scale production in photovoltaics and other electronics.
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- Direct Bandgap Semiconductor: CdSe has a direct bandgap (~1.74 eV), making it ideal for optoelectronic applications such as light-emitting devices, lasers, and photovoltaics.
- High Absorption Coefficient: CdSe exhibits a high absorption coefficient in the visible range, making it suitable for applications in solar cells and photodetectors.
- Quantum Dot Applications: CdSe is widely used in quantum dots, offering tunable emission properties based on the size of the particles, enabling use in next-generation displays and medical imaging.
- Wide Range of Optical and Electronic Properties: CdSe offers tunable optical and electronic properties, making it useful across a wide range of applications from sensors to light-emitting devices.
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- High Refractive Index: CeO₂ is valued in optical applications due to its high refractive index and transparency in the visible spectrum.
- Excellent Catalytic Properties: CeO₂’s strong ability to promote oxidation reactions makes it essential in catalytic applications.
- Dielectric Properties: CeO₂ has a high dielectric constant, making it suitable for thin film applications in the semiconductor industry.
- Chemical Stability: CeO₂ is chemically stable in harsh environments, ensuring the durability of thin films under various conditions.
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- High Catalytic Activity: Co₂O₃ is well known for its excellent catalytic properties, making it suitable for applications requiring enhanced oxidation reactions.
- Magnetic Properties: With significant magnetic behavior, Co₂O₃ is valuable in magnetic and spintronic devices.
- Electrical Conductivity: Co₂O₃ has good electrical conductivity, making it useful for battery and electronic applications.
- Environmental Stability: Co₂O₃ exhibits stability under various environmental conditions, ensuring the longevity of the thin films produced.
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- High Conductivity: Co3O4 thin films exhibit good electrical conductivity, which can be tailored for use in supercapacitors and battery electrodes.
- Catalytic Activity: Cobalt oxide is a highly efficient catalyst, especially in electrochemical applications, due to its ability to facilitate oxidation-reduction reactions.
- Good Thermal Stability: Co3O4 is thermally stable, making it suitable for high-temperature applications such as catalysis and energy storage.
- Magnetic Properties: Co3O4 films possess useful magnetic properties, which are exploited in various magnetic and electronic devices.
