Showing 649–660 of 677 results
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Zinc (Zn) sputtering targets are essential for industries that require corrosion-resistant, conductive, and versatile coatings, making them indispensable in electronics, optics, protective coatings, and energy-related applications.
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- Efficient Corrosion Protection: Widely used for anti-corrosion coatings, zinc wire prolongs the lifespan of steel and other metals in harsh environments.
- Ease of Application: Zinc wire is easily applied using thermal spray techniques or galvanizing, offering uniform and durable coatings.
- Cost-Effectiveness: Zinc wire provides a cost-effective solution for protecting structures and components compared to other anti-corrosion methods.
- Customizability: Available in various diameters and purity levels, zinc wire can be tailored to meet specific industrial needs.
- Eco-Friendly: Zinc coatings are recyclable and environmentally safe, adhering to sustainable manufacturing practices.
- Excellent Bonding Properties: Zinc wire adheres well to a variety of substrates, ensuring long-lasting and reliable coatings.
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- Thermoelectric Properties: Zn₃Sb₂ is known for its high thermoelectric efficiency, making it an excellent material for energy conversion applications.
- High Purity: Available in various purity grades, ensuring the production of high-quality thin films.
- Stable Deposition: Consistent film quality and performance, ideal for advanced manufacturing processes.
- Durability: Offers excellent thermal stability, reducing the risk of material degradation during deposition and application.
- Wide Application Range: Suitable for a variety of industries, including semiconductor, energy, and sensing technologies.
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- Corrosion Resistance: Provides superior protection against oxidation and moisture.
- Good Electrical Conductivity: Ensures efficient performance in electronic applications.
- Lightweight: The alloy’s low density makes it ideal for applications where weight is a concern.
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- High Transparency: ZnO provides excellent transparency in the visible range, making it ideal for optoelectronic devices and transparent conductive coatings.
- Good Conductivity: ZnO offers significant electrical conductivity, which can be tuned for various applications.
- UV Absorption: ZnO thin films are highly effective in absorbing ultraviolet (UV) light, making them suitable for UV protection coatings.
- Piezoelectric Properties: Its piezoelectric characteristics make it ideal for use in sensors and actuators.
- Environmentally Friendly: ZnO is non-toxic and environmentally benign, making it a sustainable choice for electronics and coatings.
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- High Purity: Ensures optimal performance across diverse applications.
- UV Absorption: Effective in UV protection and photodetector applications.
- Electrical Properties: Exhibits semiconductor behavior for electronic devices.
- Antibacterial: Inhibits microbial growth for medical and cosmetic uses.
- Thermal Stability: Retains properties under high temperatures.
- Customizable Sizes: Nano and micrometer-scale powders for specific needs.
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- High Transparency: ZnO thin films offer excellent transparency in the visible light spectrum, making them ideal for applications requiring both optical clarity and electrical conductivity.
- Good Conductivity: ZnO is a conductive oxide, providing good electrical performance in devices such as transparent electrodes and sensors.
- Wide Bandgap: ZnO is a wide-bandgap semiconductor with a bandgap of around 3.37 eV, allowing for efficient performance in UV detection and emission applications.
- Piezoelectric Properties: ZnO exhibits piezoelectric behavior, which is beneficial for applications in sensors, resonators, and energy-harvesting devices.
- Environmental Stability: ZnO thin films are chemically stable and exhibit good resistance to environmental degradation, ensuring long-term durability in various applications.
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$335.00
- Crystal Orientation: <0001>
- High Purity & Low Defect Density ensuring stable epitaxial growth
- Single-Side Polished (SSP / 1sp) with high-quality O-face polished surface
- Precise Dimensions: 10 mm × 10 mm × 0.5 mm
- High Surface Quality: Low roughness suitable for MBE, PLD, sputtering, and CVD
- Excellent Physical Properties: High transparency in UV, robust thermal stability
- Ideal for Research & Industrial Applications
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- High Transparency: ZnS has excellent transmission in the visible and infrared regions, making it ideal for optical coatings and infrared optics.
- Wide Bandgap: ZnS has a large bandgap, allowing it to function effectively in optoelectronic and photonic applications.
- Durable and Stable: ZnS thin films are stable in a variety of environmental conditions and offer good mechanical durability.
- Broad Spectral Range: ZnS thin films exhibit good transmission from the visible spectrum to the mid-infrared region, making them suitable for a wide range of optical applications.
- Low Absorption: ZnS has low absorption in the visible and infrared spectra, making it a preferred material for high-performance optical coatings.
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- High Optical Transmittance: Effective transmission in the visible and infrared spectrums (0.4–12 µm).
- Thermal Stability: Can withstand high temperatures without degrading its properties.
- Mechanical Durability: Exhibits good mechanical strength and hardness, making it suitable for demanding applications.
- Chemical Resistance: Resistant to moisture and many chemicals, enhancing its reliability in various environments.
- Wide Applications: Suitable for a range of applications including infrared optics and lighting devices.
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- Broad Transmission Range: ZnS exhibits excellent transmission in the visible, near-infrared (NIR), and mid-infrared (MWIR) regions, making it suitable for a wide range of optical applications.
- High Refractive Index: ZnS has a high refractive index, which is beneficial for designing optical coatings with precise reflection and transmission properties.
- Chemical and Thermal Stability: ZnS thin films are chemically stable and exhibit good thermal resistance, making them suitable for use in high-temperature and chemically aggressive environments.
- Infrared Transparency: ZnS is known for its excellent transparency in the infrared spectrum, especially in thermal imaging systems, laser optics, and other IR-related devices.
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- Broad Optical Transmission: ZnSe offers high transmission from the visible to the IR range (0.6 µm to 16 µm), making it ideal for infrared optics and laser systems.
- High Laser Damage Threshold: ZnSe can withstand high-power laser radiation, making it a preferred material for CO₂ laser optics and other high-energy laser applications.
- Chemical and Thermal Stability: ZnSe is chemically stable and has good thermal shock resistance, ensuring reliable performance in challenging environments, such as thermal imaging and industrial laser systems.
- High Purity and Low Absorption: ZnSe sputtering targets are available in high purity (up to 99.999%), ensuring minimal absorption and optimal performance in optical coatings and laser optics.
