Lanthanum Vanadium Sputtering Targets
Lanthanum Vanadium Sputtering Targets
Lanthanum Vanadium Sputtering Targets | |
Product No | NRE-43477 |
CAS No. | NA |
Formula | NA |
Molecular Weight | NA |
Purity | >99.9% |
Density | NA |
Thickness | 3 mm ± 0.5mm (can be customized) |
Diameter | 50 mm ± 1mm (can be customized) |
Shape | Round |
Resistivity | NA |
Thermal Conductivity | NA |
Lanthanum Vanadium Sputtering Targets
Introduction
Lanthanum vanadium oxide (LaVO3) is a perovskite oxide that has gained attention due to its unique electronic, magnetic, and catalytic properties. This compound exhibits a range of functionalities, including high-temperature superconductivity and strong electron correlation effects. Sputtering targets made from lanthanum vanadium are utilized in thin film deposition processes, enabling the development of advanced materials for various technological applications.
Applications
High-Temperature Superconductors:
LaVO3 is studied for its potential in high-temperature superconducting applications, making it relevant for energy-efficient power transmission and magnetic levitation technologies.
Electrochemical Devices:
The compound is used in solid oxide fuel cells (SOFCs) and batteries, where it serves as an electrode material, contributing to improved performance and efficiency in energy conversion processes.
Magnetic Materials:
LaVO3 exhibits interesting magnetic properties, making it suitable for spintronic applications and magnetic sensors, where control over electron spin is crucial for device performance.
Catalysts:
Lanthanum vanadium oxides are utilized as catalysts in various chemical reactions, including those involved in environmental remediation and energy conversion, due to their stability and activity under diverse conditions.
Thin Film Transistors (TFTs):
The electronic properties of LaVO3 can be exploited in the development of thin film transistors, enhancing the performance of electronic devices, displays, and integrated circuits.
Optoelectronic Devices:
LaVO3 can also be employed in optoelectronic applications, including photodetectors and light-emitting devices, leveraging its semiconductor properties for efficient light emission and detection.