Showing 13–20 of 20 results
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- Semiconductor Properties: SnS₂ has a direct bandgap, making it suitable for absorbing light and generating charge carriers, ideal for photovoltaic and optoelectronic applications.
- High Absorption Coefficient: SnS₂ thin films exhibit high optical absorption, making them effective in solar energy harvesting applications.
- Environmentally Friendly: Tin and sulfur are abundant and non-toxic elements, making SnS₂ a more environmentally benign material compared to some other semiconductor compounds.
- Layered Structure: The layered crystal structure of SnS₂ allows for good ion intercalation in energy storage devices and provides opportunities for 2D material applications.
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- 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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- High Purity: ≥ 99.99% purity for optimal thin-film deposition.
- Layered Crystal Structure: Supports efficient film formation and exfoliation.
- Exceptional Thermoelectric Performance: High Seebeck coefficient and low thermal conductivity.
- Broad Application Range: Versatile for electronic, photovoltaic, and thermoelectric uses.
- Customizable Options: Available in various sizes, shapes, and bonding configurations.
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- High Purity: ≥ 99.99% purity ensures consistent and efficient thin-film deposition.
- Layered Structure: Promotes easy exfoliation and high-quality thin-film production.
- Exceptional Optical and Electrical Properties: High carrier mobility and excellent absorption coefficients.
- Thermoelectric Efficiency: Strong performance in thermal-to-electric energy conversion.
- Customizable Options: Tailored sizes and shapes to suit diverse applications.
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- Thermoelectric Efficiency: Outstanding thermoelectric performance with a high Seebeck coefficient and low thermal conductivity.
- Optoelectronic Properties: High carrier mobility and sensitivity to infrared light.
- Customizable Sizes: Tailored particle sizes for various research and industrial needs.
- Stable Crystal Structure: Rock-salt (NaCl-type) structure for robust stability.
- High Purity: Ultra-pure material for precise and repeatable results.
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- High Purity: Reduces impurities, ensuring superior thin-film quality.
- Stable Composition: Precisely controlled Sn and Te ratio for consistent performance.
- Excellent Film Properties: Produces smooth, high-density, and defect-free films.
- Versatile Deposition: Suitable for PVD and other thin-film coating techniques.
- Customizable Options: Flexible sizes and specifications to fit diverse sputtering systems.
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- High Purity: Ensures superior film quality and uniform deposition.
- Optimal Conductivity: Suitable for advanced optoelectronic devices.
- Customization: Available in various sizes, shapes, and compositions to meet specific requirements.
- Stability: Excellent thermal and chemical stability for long-lasting performance.
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- High Purity: ≥ 99.9% purity ensures consistent and high-quality film deposition.
- Optoelectronic Properties: Exhibits excellent absorption coefficients and semiconducting behavior.
- Environmentally Friendly: Non-toxic and abundant material for sustainable applications.
- Customizable Formulations: Tailored compositions to meet specific research and industrial needs.
- Versatile Deposition: Compatible with RF and DC magnetron sputtering systems.