Showing 13–24 of 30 results

  • GeSe2 Pellets Evaporation Material 4N-6N High Purity Germanium Diselenide Granules Particles for Coating High Pure 99.99%-99.9999% Customized - Tinsan Materials

    GeSe2 (Germanium Diselenide) Pellets Granules Evaporation Materials

    • Excellent IR Transparency: GeSe₂ has good transmission in the infrared spectrum, making it ideal for optical coatings and IR components.
    • Semiconducting Properties: It exhibits semiconductor behavior, making it useful for electronics, photonics, and photovoltaic applications.
    • Phase Change Behavior: GeSe₂ can undergo reversible phase changes, a property that is useful in memory storage devices.
    • Good Film Uniformity: When evaporated, GeSe₂ forms uniform, high-quality thin films, suitable for precise optical coatings and electronic applications.
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  • GeSe2 Sputtering Target 99.9%-99.9999% High Purity Germanium Selenium Ceramic Sputtering Targets High Pure 3N-6N Customized - Tinsan Materials

    GeSe2 (Germanium Selenide) Sputtering Targets

    • Infrared Transparency: GeSe₂ offers excellent transmission in the infrared spectrum, making it suitable for IR optics and photonic applications.
    • Phase-Change Properties: GeSe₂ is a key material in phase-change memory technology, providing the ability to switch between different states under thermal or electrical stimuli.
    • Chemical and Thermal Stability: GeSe₂ thin films exhibit strong chemical resistance and can withstand high temperatures, ensuring longevity and performance in harsh conditions.
    • High Refractive Index: GeSe₂ has a high refractive index, making it suitable for optical applications requiring materials with specific light-bending capabilities.
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  • In2Se3 Powder 3N-6N High Purity Indium(III) Selenide Nanopowder Nano Powder Nanoparticles High Pure 99.9%-99.9999% Customized - Tinsan Materials

    In2Se3 (Indium(III) Selenide) Powder

    • High Purity: Ensures consistent performance for advanced applications.
    • Semiconducting Properties: Ideal for electronic and optoelectronic devices.
    • Wide Bandgap: Enables applications in high-performance photodetectors and solar cells.
    • Thermal Stability: Supports use in high-temperature environments.
    • Custom Particle Sizes: Available in nano and micron ranges.
    • Versatile Applications: Spanning optoelectronics, photovoltaics, and research.
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  • In2Se3 Sputtering Targets 3N-6N High Purity Indium Selenide Ceramic Sputtering Target High Pure 99.9%-99.9999% Customized for Thin Film Deposition - Tinsan MaterialsIn2Se3 Sputtering Targets 3N-6N High Purity Indium Selenide Ceramic Sputtering Target High Pure 99.9%-99.9999% Customize for Thin Film Deposition - Tinsan Materials

    Indium Selenide (In2Se3) Sputtering Targets

    • High Optical Absorption: Ideal for solar energy harvesting applications.
    • Semiconductor Versatility: Tunable electronic properties for various device designs.
    • Eco-Friendly Composition: Cadmium-free material for safer and sustainable usage.
    • Customizable Solutions: Specifications tailored to meet specific deposition requirements.
    • High Purity: Ensures consistent and high-quality thin films.
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  • MoSe2 Sputtering Targets 3N-6N High Purity Molybdenum Diselenide Ceramic Sputtering Target High Pure 99.9%-99.9999% Customized for Thin Film Deposition - Tinsan MaterialsMoSe2 Sputtering Targets 3N-6N High Purity Molybdenum Diselenide Ceramic Sputtering Target High Pure 99.9%-99.9999% Customize for Thin Film Deposition - Tinsan Materials

    MoSe2 (Molybdenum Diselenide) Sputtering Targets

    • High Purity: Ensures superior thin-film quality and device performance.
    • Layered Structure: Facilitates easy exfoliation and 2D material synthesis.
    • Stable Chemical Composition: Provides consistent results across various deposition processes.
    • Excellent Optical and Electrical Properties: Ideal for advanced electronics and optoelectronics.
    • Custom Configurations: Available in tailored sizes, shapes, and thicknesses for specific requirements.
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  • NbSe2 (Niobium Diselenide) Sputtering Targets

    • High Purity: ≥99.5% purity to ensure high-quality thin-film deposition.
    • Unique Layered Structure: Facilitates superior electronic and optical properties for advanced applications.
    • Superconducting Properties: Ideal for applications in superconducting electronics and quantum computing research.
    • High Stability: Reliable performance under sputtering conditions with excellent chemical stability.
    • Customizable: Tailored sizes and shapes for different deposition setups.
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  • Sb2Se3 Pellets Evaporation Material 4N-6N High Purity Antimony Selenide Granules Particles for Coating High Pure 99.99%-99.9999% Customized - Tinsan Materials

    Sb2Se3 (Antimony Selenide) Pellets Granules Evaporation Materials

    • High Absorption Coefficient: Sb2Se3 is known for its strong light absorption in the visible spectrum, making it ideal for thin-film solar cells.
    • Stable Material: It exhibits good thermal and chemical stability, ensuring long-lasting performance in devices.
    • Non-Toxic Alternative: Sb2Se3 is considered a safer and more environmentally friendly alternative to toxic materials like cadmium-based compounds in photovoltaic applications.
    • Low Cost: It is a relatively cost-effective material for large-scale thin-film applications.
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  • Sb2Se3 Powder 3N-6N High Purity Antimony Selenide Nanopowder Nano Powder Nanoparticles High Pure 99.9%-99.9999% Customized - Tinsan Materials

    Sb2Se3 (Antimony Selenide) Powder

    • High Absorption Coefficient: Ensures efficient light capture in photovoltaic applications.
    • Direct Bandgap: Ideal for energy conversion and optoelectronics.
    • Eco-Friendly Composition: A cadmium-free alternative for green energy solutions.
    • Customizable Specifications: Tailored purity levels and particle sizes.
    • Thermal Stability: Performs consistently under high-temperature conditions.
    • Versatile Applications: Suitable for use in solar cells, thermoelectric devices, and optical coatings.
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  • Sb2Se3 Sputtering Target 3N-6N High Purity Antimony Selenide Ceramic Sputtering Targets High Pure 99.9%-99.9999% Customized - Tinsan MaterialsSb2Se3 Sputtering Target 3N-6N High Purity Antimony Selenide Ceramic Sputtering Targets High Pure 99.9%-99.9999% Customized - Tinsan Materials

    Sb2Se3 (Antimony Selenide) Sputtering Target

    • High Absorption Coefficient: Sb₂Se₃ has a high absorption coefficient, which makes it effective for thin-film solar cells and light-harvesting applications.
    • Bandgap: The material has a bandgap around 1.1 to 1.3 eV, ideal for photovoltaic devices aimed at capturing sunlight efficiently.
    • Non-Toxic and Earth-Abundant: Sb₂Se₃ offers an environmentally friendlier and more sustainable alternative to other thin-film materials like cadmium-based compounds.
    • Stable Crystal Structure: Sb₂Se₃ thin films exhibit a stable orthorhombic crystal structure, which contributes to their robustness in various electronic and energy-related applications.
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  • Selenium Granules Evaporation Material 3N-6N High Purity Se Powder Rods for Coating High Pure 99.9%-99.9999% Customized - Tinsan MaterialsSelenium Lump Evaporation Material 3N-6N High Purity Se Pellets Rods for Coating High Pure 99.9%-99.9999% Customized - Tinsan Materials

    Se Selenium Granules Powder Evaporation Materials 3N – 6N (99.9% – 99.9999%)

    • Photoconductive Properties: Selenium changes its electrical conductivity when exposed to light, making it essential for optoelectronic devices such as photodetectors and xerography.
    • Semiconductor Capabilities: Selenium is a key element in semiconductor applications, offering high photoelectric sensitivity and versatility in electronic components.
    • High Purity: Selenium evaporation materials are typically offered in high-purity levels (≥ 99.9%) for optimal thin-film deposition and consistent results.
    • Compatibility with PVD Techniques: Selenium pellets can be easily evaporated using thermal or electron-beam evaporation, providing stable and uniform thin films.
    • Infrared Optics: Selenium-based compounds, like cadmium selenide (CdSe), are used in infrared detectors and imaging technologies due to their IR transparency.
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  • Selenium Sputtering Target 99.9%-99.9999% High Purity Se Metal Sputtering Targets 3N-6N Customized - Tinsan MaterialsSelenium Sputtering Target 99.9%-99.9999% High Purity Se Metal Sputtering Targets 3N-6N Customized - Tinsan Materials

    Se Selenium Sputtering Targets

    • Purity: High-purity selenium (typically 99.9% or higher) ensures the quality of the deposited films and consistent performance.
    • Photoconductivity: Selenium is highly photoconductive, making it ideal for optoelectronic and photovoltaic applications.
    • Customizable Size and Shape: Selenium sputtering targets are available in different forms, including discs, plates, and custom shapes, to fit a variety of PVD systems.
    • Thermal and Electrical Properties: Selenium films offer excellent thermal and electrical properties, crucial for semiconductor and photovoltaic devices.
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  • SnSe Pellets Evaporation Material 4N-6N High Purity Tin Selenide Granules Particles for Coating High Pure 99.99%-99.9999% Customized - Tinsan Materials

    SnSe (Tin Selenide) Pellets Granules Evaporation Materials

    • Good Thermoelectric Performance: SnSe offers high thermoelectric efficiency, making it suitable for power generation and solid-state cooling systems.
    • Favorable Bandgap: SnSe has a direct bandgap of ~1.3 eV, which is ideal for absorbing sunlight in photovoltaic devices.
    • Low Thermal Conductivity: Its ability to maintain a high thermoelectric figure of merit (ZT) due to low thermal conductivity is a key feature in energy conversion materials.
    • High Absorption Coefficient: SnSe shows strong absorption in the visible and NIR spectrum, making it useful in light-harvesting applications.
    • Stable Thin Films: SnSe can form stable, high-quality thin films via thermal or e-beam evaporation methods.
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