Showing 1–12 of 30 results

  • Ag2Se Pellets Evaporation Materials 3N-6N High Purity Silver Selenide Granules Particles for Thin Film Deposition High Pure 99.9%-99.9999% Customized - Tinsan Materials

    Ag2Se (Silver Selenide) Pellets Granules Evaporation Materials

    • High purity (≥99.9%).
    • Excellent thermoelectric and optical properties.
    • Stable in various thin-film deposition techniques.
    • Uniform size for consistent vaporization and deposition.
    • Custom pellet sizes and compositions available.
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  • Bi2O2Se Sputtering Targets 2N5-6N High Purity Bismuth Oxyselenide Ceramic Sputtering Target High Pure 99.5%-99.9999% Customized - Tinsan Materials

    Bi2O2Se (Bismuth Oxyselenide) Sputtering Targets

    • Layered Structure: Enables the exfoliation of thin films for various nanodevice applications.
    • High Carrier Mobility: Supports rapid electron and hole movement for faster electronic response.
    • Tunable Bandgap: Adjustable for different applications, optimizing its use in various electronic and optical devices.
    • Good Thermal Stability: Suitable for high-temperature applications, enhancing long-term reliability.
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  • Bi2Se3 Pellets Evaporation Material 4N-6N High Purity Bismuth Selenide Granules Particles for Coating High Pure 99.99%-99.9999% Customized - Tinsan Materials

    Bi2Se3 (Bismuth Selenide) Pellets Granules Evaporation Materials

    • High Thermoelectric Efficiency: Bi2Se3 has a high figure of merit (ZT), making it highly efficient for thermoelectric conversion.
    • Topological Insulator Properties: It exhibits insulating behavior in its bulk with conductive surface states, which are resistant to backscattering and have potential in quantum computing.
    • Good IR Absorption: Bi2Se3 is efficient in absorbing infrared radiation, making it useful in IR detectors and sensors.
    • Stable at High Temperatures: It offers thermal stability and is suitable for evaporation at high temperatures, enabling consistent film formation.
    • High Purity: Available in high purity, ensuring reliable and high-quality thin films for sensitive applications.
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  • Bi2Se3 Powder 3N-6N High Purity Bismuth Selenide Nanopowder Nano Powder Nanoparticles High Pure 99.9%-99.9999% Customized - Tinsan Materials

    Bi2Se3 (Bismuth Selenide) Powder

    • High Purity: Available with ≥99.9% purity for optimal performance.
    • Topological Insulator Properties: Enables applications in quantum computing and advanced electronics.
    • Excellent Thermoelectric Efficiency: Ideal for energy harvesting and cooling systems.
    • Customizable Particle Sizes: Nano and micro scales tailored to specific applications.
    • Stable Composition: Chemically stable and resistant to degradation.
    • Environmentally Friendly: Non-toxic and suitable for sustainable technologies.
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  • Bi2Se3 Sputtering Target 3N-6N High Purity Bismuth Selenide Ceramic Sputtering Targets High Pure 99.9%-99.9999% Customized - Tinsan Materials

    Bi2Se3 (Bismuth Selenide) Sputtering Target

    • Topological Insulator Properties: Bi₂Se₃ is known for its topological insulator characteristics, where it supports surface conduction while acting as an insulator in its bulk, opening pathways for advanced quantum applications.
    • Thermoelectric Efficiency: Bi₂Se₃ exhibits excellent thermoelectric performance with a high Seebeck coefficient, making it a critical material for thermoelectric energy conversion.
    • Low Thermal Conductivity: Its low thermal conductivity helps in maximizing the thermoelectric efficiency in power generation and cooling applications.
    • High IR Sensitivity: Bi₂Se₃’s sensitivity to infrared radiation makes it ideal for IR sensors and other optoelectronic devices.
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  • Cadmium Selenide Powder 4N-6N High Purity CdSe Nanopowder Nanoparticles High Pure 99.99%-99.9999% Customized - Tinsan MaterialsCdSe Powder 4N-6N High Purity Cadmium Selenide Nanopowder Nanoparticles High Pure 99.99%-99.9999% Customized - Tinsan Materials

    CdSe (Cadmium Selenide) Powder 4N – 6N (99.99% – 99.9999%)

    • Optical Properties: CdSe exhibits strong light absorption in the visible and infrared spectrum, making it an ideal material for optoelectronic applications.
    • Electronic Properties: With a direct bandgap of approximately 1.7 eV (which can be tuned depending on particle size and synthesis methods), CdSe offers high photoresponsivity and efficient charge carrier transport.
    • Thermal Stability: CdSe maintains good chemical and structural stability within a specific temperature range.
    • Crystal Structure: It exists in either a cubic (zinc blende) or hexagonal (wurtzite) crystalline phase, each with distinct electronic and optical characteristics.
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  • CdSe Sputtering Target 3N-7N High Purity Cadmium Selenium Ceramic Sputtering Targets High Pure 99.9%-99.99999% Customized - Tinsan Materials

    CdSe (Cadmium Selenium) Sputtering Target

    • 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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  • Cu2Se Pellets Evaporation Materials 3N-6N High Purity Copper(I) Selenide Granules Particles for Thin Film Deposition High Pure 99.9%-99.9999% Customized - Tinsan Materials

    Cu2Se (Copper(I) Selenide) Pellets Granules Evaporation Materials

    • High purity (≥99.99%).
    • Outstanding thermoelectric and electrical properties.
    • Stable crystalline structure.
    • Uniform pellet size for consistent deposition outcomes.
    • Tailored sizes and shapes available to meet application requirements.
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  • Cu2Se Sputtering Targets 2N5-6N High Purity Copper(I) Selenide Ceramic Sputtering Target High Pure 99.5%-99.9999% Customized - Tinsan MaterialsCu2Se Sputtering Targets 2N5-6N High Purity Copper(I) Selenide Ceramic Sputtering Target High Pure 99.5%-99.9999% Customize - Tinsan Materials

    Cu2Se (Copper(I) Selenide) Sputtering Targets

    • High Purity: ≥99.5% purity for optimal thin-film quality.
    • Stable Composition: Ensures consistent performance during sputtering.
    • Excellent Electrical Conductivity: Suitable for functional thin-film coatings.
    • Thermal and Chemical Stability: Performs reliably under various sputtering conditions.
    • Customizable: Adaptable to specific equipment and application requirements.
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  • CuInGaSe CIGS Ceramic Target 99.9%-99.99999% High Purity Cuprum Copper Indium Gallium Selenium Ceramic Sputtering Targets 3N-7N Customized - Tinsan MaterialsCuInGaSe CIGS Ceramic Target 99.9%-99.99999% High Purity Cuprum Copper Indium Gallium Selenium Ceramic Sputtering Targets 3N-7N Customized - Tinsan Materials

    CuInGaSe CIGS (Copper Indium Gallium Selenium) Ceramic Targets

    • High Solar Conversion Efficiency: CuInGaSe (CIGS) thin films exhibit high energy conversion efficiency, particularly in thin-film photovoltaic cells, making them an ideal choice for modern solar technology.
    • Wide Bandgap Tunability: The presence of gallium allows for tuning the bandgap, which improves the absorption spectrum and efficiency of solar cells.
    • Lightweight and Flexible: CIGS thin-film solar panels are lighter and more flexible compared to traditional silicon-based panels, enabling their use in various applications, from portable devices to large-scale installations.
    • Excellent Absorption Properties: CIGS thin films offer superior absorption of sunlight across a wide range of wavelengths, making them more effective at capturing solar energy, even in diffuse or low-light conditions.
    • Stable in Harsh Conditions: CuInGaSe thin films provide stability and performance reliability in a range of environmental conditions, ensuring long-lasting performance in solar panels.
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  • CuSe Pellets Evaporation Material 3N-6N High Purity Copper Selenide Granules Particles for Coating High Pure 99.9%-99.9999% Customized - Tinsan Materials

    CuSe (Copper Selenide) Pellets Granules Evaporation Materials

    • Semiconducting Properties: CuSe is a p-type semiconductor material, making it useful in the development of electronic and optoelectronic devices.
    • High Absorption Coefficient: It has a high absorption coefficient in certain wavelengths, making it suitable for photovoltaic and optical coating applications.
    • Stability: Copper selenide is stable under a wide range of conditions, providing longevity for deposited thin films in various environmental settings.
    • Excellent Conductivity: The material demonstrates good electrical conductivity, which is valuable in the context of solar energy harvesting and thermoelectric applications.
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  • CuSe Sputtering Targets 2N5-6N High Purity Copper Selenide Ceramic Sputtering Target High Pure 99.5%-99.9999% Customized for Thin Film Deposition - Tinsan Materials

    CuSe (Copper Selenide) Sputtering Targets

    • High Purity: Ensures defect-free deposition for precision applications.
    • Good Electrical Conductivity: Suitable for functional and conductive coatings.
    • Stable Performance: Maintains chemical and thermal stability during sputtering processes.
    • Customizable: Available in various dimensions and shapes for compatibility with sputtering systems.
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