Two Dimensional Ferromagnetic Semiconductor: Monolayer CrGeS3

Abstract

Recently, two-dimensional ferromagnetic semiconductors have been an important class of materials for many potential applications in spintronic devices. Based on density functional theory, we systematically explore the magnetic and electronic properties of CrGeS3 with the monolayer structures. The comparison of total energy between different magnetic states ensures the ferromagnetic ground state of monolayer CrGeS3. It is also shown that ferromagnetic and semiconducting properties are exhibited in monolayer CrGeS3 with the magnetic moment of 3 μB for each Cr atom, donated mainly by the intense dpσ-hybridization of Cr eg-S p. There are the bandgap of 0.70 eV of spin-up state in the monolayer structure when 0.77 eV in spin-down state. The global gap is 0.34 eV (2.21 eV by using HSE06 functional), which originates from bonding dpσ hybridized states of Cr eg-S p and unoccupied Cr t2g-Ge p hybridization. Besides, we estimate that the monolayer CrGeS3 possesses the Curie temperature of 161 K by mean-field theory.