High-Temperature Ferromagnetic Semiconductors: Janus Monolayer Vanadium Trihalides

Abstract

Two-dimensional (2D) intrinsic ferromagnetic semiconductors are expected to stand out in the spintronic field. Recently, the monolayer VI3 has been experimentally synthesized but the weak ferromagnetism and low Curie temperature (TC) limit its potential application. Here we report that the Janus structure can elevate the TC to 240 K. And it is discussed that the reason for high TC in Janus structure originates from the lower virtual exchange gap between t2g and eg states of nearest-neighbor V atoms. Besides, TC can be further substantially enhanced by tensile strain due to the increasing ferromagnetism driven by rapidly quenched direct exchange interaction. Our work supports a feasible approach to enhance Curie temperature of monolayer VI3 and unveils novel stable intrinsic FM semiconductors for realistic applications in spintronics.