Tungsten Telluride (WTe2) Sputtering Targets

Tungsten telluride (WTe2) is a layered semimetal belonging to the family of transition metal dichalcogenides (TMDs). It has an orthorhombic crystal structure and exhibits unique electronic properties, such as extremely high carrier mobility and the presence of Weyl fermions. Thin films of WTe2 can be deposited using sputtering techniques, allowing for the fabrication of high-quality and uniform layers. Sputtered WTe2 films have garnered significant attention for their potential applications in high-speed electronics and spintronics. The exceptional carrier mobility of WTe2 makes it a promising candidate for the development of high-frequency transistors and ultrafast electronic devices. Moreover, the presence of Weyl fermions in WTe2 has opened up new possibilities for the study of exotic quantum phenomena and the development of novel spintronic devices. The ability to deposit WTe2 by sputtering has greatly advanced the study and application of this fascinating material in various fields of physics and electronics.

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