Bismuth Lanthanum Ferrite Sputtering Targets
Bismuth Lanthanum Ferrite Sputtering Targets
| Bismuth Lanthanum Ferrite Sputtering Targets | |
| Product No | NRE-43199 |
| CAS No. | NA |
| Formula | Bi(1-x)LaxFeO3 |
| 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 |
Bismuth Lanthanum Ferrite Sputtering Targets
Bismuth lanthanum ferrite (BiLaFeO3) sputtering targets are used to produce thin films of a material known for its unique combination of properties. This material, like other multiferroics, exhibits both ferroelectric and magnetic behaviours. The applications of bismuth lanthanum ferrite sputtering targets span several advanced technological areas. Here are some key applications.
Multiferroic Devices
Memory Technologies: Bismuth lanthanum ferrite’s multiferroic properties make it suitable for next-generation memory devices, such as magnetoelectric random-access memory (MeRAM) and ferroelectric random-access memory (FeRAM). These devices leverage the coupling of electric and magnetic fields for non-volatile data storage.
Spintronics: The coupling of ferroelectric and magnetic properties in BiLaFeO3 can be utilized in spintronic devices, which use electron spin in addition to charge for information processing and storage. These devices could offer enhanced performance and new functionalities.
Piezoelectric Devices
Sensors: Due to its piezoelectric properties, bismuth lanthanum ferrite can be used in sensors that convert mechanical stress into electrical signals. These sensors can be applied in various fields, including pressure and force measurement.
Actuators: The material’s piezoelectric characteristics are also useful in actuators that convert electrical signals into mechanical movement. Applications include precise positioning systems and micro-actuators.
Photovoltaic Devices
Solar Cells: Thin films of bismuth lanthanum ferrite can be incorporated into photovoltaic devices to enhance light absorption and energy conversion efficiency. This could lead to improvements in the performance of solar cells.
Catalysis
Chemical Reactions: Bismuth lanthanum ferrite can act as a catalyst or catalyst support in various chemical processes. Thin films of this material can be used in catalytic converters or other industrial catalytic applications.
Optoelectronic Devices
Photodetectors: The optical properties of BiLaFeO3 make it suitable for photodetectors, which convert light into electrical signals. This can be useful in imaging systems, optical communication, and sensing technologies.
Lasers and Optical Switches: Research into BiLaFeO3 also explores its potential use in laser technology and optical switches, where its unique properties could offer new capabilities or improved performance.
