Ytterbium hexaboride is black crystalline powder, which has the same cubic crystal structure as CaB6, LaB6 and so on. It is available with powder, piece and sputtering target. YbB6 is superconductor with the relatively high transition tempeature. (onset) of 8.4K。
YbB6 is a fascinating compound that has gained considerable attention for its unique properties and diverse applications, particularly in the fields of magnetism, electronics and quantum materials.
Ytterbium Hexaboride
Purity: Yb/RE 99.9% 3N
Particle size: -20~500mesh
| CAS No.:12008-33-2 | EC No.:234-540-5 | Molecular Formula:YbB6 | Molecular Weight:237.914 |
| Density:3.67 |
Applications
Formed from ytterbium and boron, YbB6 exhibits intriguing characteristics, including its strong magnetic behavior and potential as a topological insulator, making it a valuable asset in modern technological advancements.
One of the primary applications of YbB6 lies in its magnetic properties. YbB6 is known for its exceptional magnetic behavior, which makes it an attractive candidate for use in permanentm magnets, magnetic sensors, and various electronic devices. Its ability to tailor magnetic characteristics through compositional and structural modifications enahances its utility in developing advanced magnetic materials for data storage and energy-efficient applications.
In addition to its magnetic applications, YbB6 has garnered interest as a potential topological insulator. This property allows it to conduct electricity along its surface while remaining insulating in its bulk, opening up exciting opportunities for next generation electronic devices. Its unique electronic structure positions YbB6 as a candidate for applications in spintronics and quantum computing, where harnessing quantum phenomena can lead to significant improvements in performance and efficiency.
Furthermore, YbB6‘s thermal stability and mechanical strength make it suitable for high-temperature applications. Its robustness enables potential uses in extreme environments where conventional materials may fail, thus broadening its applicability across various industries, including aerospace and energy.