Showing 265–276 of 563 results
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- Mott Insulator Properties: LaTiO₃ exhibits insulating behavior despite having partially filled electronic bands, which makes it valuable in the study of Mott insulators and potential applications in quantum electronics.
- Perovskite Structure: Its perovskite crystal structure enables integration into other perovskite materials and systems, providing flexibility in multilayered thin-film devices.
- Electrical and Magnetic Properties: LaTiO₃ exhibits a combination of electrical and magnetic properties that are useful in advanced electronic devices.
- Optical Transparency: The material is transparent in certain spectral regions, making it suitable for use in optoelectronic devices.
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- High Purity: ≥99.9% purity, ensuring optimal performance in sensitive applications.
- Fine Powder: Available in micro and nano particle sizes, providing enhanced reactivity and consistency.
- Versatile Applications: Ideal for use in lithium-ion batteries, ceramics, glass production, and pharmaceutical formulations.
- Environmental Compatibility: Non-toxic and suitable for eco-friendly applications in energy storage systems.
- Stable and Safe: Chemically stable under normal conditions and relatively safe for handling in industrial processes.
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- High Purity: Guarantees low contamination for critical applications.
- Chemical Stability: Resistant to degradation, ensuring durable coatings.
- Superior Ionic Conductivity: Optimal for battery and energy storage films.
- Consistent Deposition: Ensures uniform and reliable thin-film performance.
- Customizable Dimensions: Adaptable to different sputtering systems and requirements.
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- High Stability: Li₄Ti₅O₁₂ has excellent chemical and structural stability, making it an ideal material for long-lasting energy storage devices.
- Low Volume Expansion: This material shows minimal expansion and contraction during charge/discharge cycles, improving battery longevity.
- Thermal Safety: Li₄Ti₅O₁₂ has a high thermal stability, reducing the risk of overheating in energy storage devices.
- Fast Charging Capability: The material is recognized for its fast charge/discharge properties, making it suitable for high-performance batteries.
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- High Energy Density: LiCoO₂ has a high theoretical energy density, making it an ideal material for battery cathodes, especially in high-performance applications like electric vehicles and portable electronics.
- Stable Structure: The layered crystal structure of LiCoO₂ contributes to its stable electrochemical performance, which is crucial for the long-term operation of lithium-ion batteries.
- Excellent Cycling Performance: LiCoO₂ can undergo many charge and discharge cycles without significant degradation, ensuring reliable performance in rechargeable battery systems.
- Thin Film Deposition: LiCoO₂ sputtering targets allow for the precise deposition of thin films in applications requiring uniform coatings, such as in thin-film batteries and microelectronics.
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- High Optical Transparency: LiF has high optical transparency in the UV, visible, and infrared regions, making it an excellent material for optical coatings and components.
- Wide Bandgap: LiF has a wide bandgap (~13.6 eV), which makes it an excellent insulating material in electronic and optoelectronic applications.
- Low Absorption: LiF thin films exhibit low absorption across a broad spectral range, making them ideal for applications where minimal light loss is required.
- Chemical Stability: LiF is chemically stable and resistant to moisture, which contributes to its durability in harsh environments and long-lasting performance in thin-film coatings.
- Insulating Properties: LiF has excellent insulating properties, which are beneficial for electronic and optoelectronic devices where electrical isolation is needed.
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- High Purity: Ensures minimal impurities, delivering superior film quality.
- Thermal Stability: Provides consistent performance under varying conditions.
- Safety Profile: Stable chemistry reduces risks of thermal runaway.
- Customizable Dimensions: Tailored to fit a range of sputtering systems.
- Reliable Deposition: Delivers uniform and high-quality thin films.
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- High Electro-optic Coefficient: LiNbO₃ has a high electro-optic coefficient, enabling efficient modulation of light in waveguides, modulators, and telecommunications devices.
- Excellent Piezoelectric Properties: LiNbO₃’s strong piezoelectric response makes it ideal for use in SAW devices, sensors, and actuators, providing high sensitivity and control.
- Nonlinear Optical Capabilities: LiNbO₃ is widely used for frequency conversion and other nonlinear optical applications due to its strong nonlinear optical response.
- Ferroelectric Behavior: LiNbO₃’s ferroelectric properties are valuable in memory devices and data storage, enabling the development of non-volatile memory technologies.
- Stable and Durable Thin Films: LiNbO₃ thin films exhibit high thermal and chemical stability, making them suitable for use in demanding environments and high-performance applications.
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- High purity (≥99.9%).
- Excellent electro-optical and piezoelectric properties.
- Stable chemical and thermal performance.
- Uniform size for consistent evaporation.
- Customizable pellet sizes and shapes.
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- High Purity: Ensures minimal impurities for superior thin-film quality.
- Exceptional Piezoelectric Properties: Ideal for high-performance acoustic and vibrational devices.
- Stable Electro-Optic Behavior: Suitable for high-precision optical applications.
- Customizable Specifications: Tailored to meet unique system requirements.
- Durable and Reliable: Manufactured for consistent sputtering performance.
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- High Purity: Ensures consistent and reliable thin-film deposition.
- Superior Electrochemical Performance: Supports high energy density and stability.
- Customizable Options: Available in various sizes, shapes, and purity levels.
- Durable and Stable: Delivers reliable performance in demanding environments.
- Scalability: Suitable for both research-scale and industrial-scale applications.
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- High Density: Lutetium is one of the densest rare-earth elements, providing superior durability in thin films.
- Optical and Catalytic Efficiency: Lutetium’s optical properties make it a valuable material for optical coatings, while its catalytic properties are utilized in industrial processes.
- High Purity: Lutetium pellets are available in high-purity forms, ensuring consistent film quality in evaporation processes.
- Thermal Stability: Lutetium films maintain stability at high temperatures, making them suitable for high-performance applications.