Boosting the Curie temperature of GaN monolayer through van der Waals heterostructures.

The pursuit of van der Waals (vdW) heterostructures with high Curie temperature and strong perpendicular magnetic anisotropy is vital to the advancement of next generation spintronic devices. First-principles calculations are used to study the electronic structures and magnetic characteristics of GaN/VS 2 vdW heterostructure under biaxial strain and electrostatic doping. Our findings show that a ferromagnetic ground state with a remarkable Curie temperature (477 K), much above room temperature, exists in GaN/VS 2 vdW heterostructure and 100% spin polarization efficiency. Additionally, GaN/VS 2 vdW heterostructure still maintains perpendicular magnetic anisotropy under biaxial strain, which is indispensable for high-density information storage. We further explore the electron, magnetic, and transport properties of VS 2 /GaN/VS 2 vdW sandwich heterostructure, where the magnetoresistivity can reach as high as 40%. Our research indicates that the heterostructure constructed by combining the ferromagnet VS 2 and the non-magnetic semiconductor GaN is a promising material for vdW spin valve devices at room temperature.&#xD.