GaTe-Assisted CVD Growth of Ultrathin Large-Scale 2D Ferromagnetic Cr5Te8

Recently, 2D Cr5Te8 has been successfully synthesized experimentally and has attracted widespread research interest due to its intriguing magnetic properties, such as hard magnetism with strong perpendicular anisotropy. However, exploring new methods for growing ultrathin 2D Cr5Te8 with a larger scale and their controllable synthesis remain challenging. Herein, the synthesis of ultrathin 2D ferromagnetic Cr5Te8 nanosheets by chemical vapor deposition (CVD) using GaTe as growth source is reported, whose size is up to ~160 {\mu}m and the thickness is lower to only 5 nm. The GaTe promotes the concentration of effective Te atoms to facilitate the direction of the synthesis reaction, enabling the rapid lateral growth rate. As a result, the synthesis of ultrathin, large-scale 2D ferromagnetic Cr5Te8 was achieved. By precisely adjusting the growth temperature and the source-substrate distance (Dss), the lateral size of the Cr5Te8 nanosheets can be tuned from a few to ~164 {\mu}m. Furthermore, magnetic property measurement system (MPMS) suggested that Cr5Te8 nanosheets possess intense out-of-plane ferromagnetism and the Curie temperature exhibits a monotonic increase from 163 to 175 K as the Cr5Te8 thickness. This work not only paves a way for the controllable growth of ultrathin, large-scale 2D ferromagnetic crystalline, but also provides a new platform for the spintronics and the practical application of magnetic memory devices.