学术文献库

In this letter, the effect of four types of defects (ONout, ONin, VNout and VNin) on the structural, electronic and magnetic properties of MoSi2N4 monolayer were investigated using first-principles calculations. The calculated results reveal that all the four types of defects lead to structural distortions around the O-dopant or N-vacancy, and thereby change the lattice parameter and monolayer height h. Specifically, ONout or ONin increases the lattice parameter, but VNout or VNin is on the contrary. ONout or VNout increases the monolayer height, whereas the height decreases for ONin or VNin. Each of the four types of defects has a fundamental effect on the electronic properties of MoSi2N4 monolayer, which can induce a transition from semiconductor to metal. ONin or VNin plays a vital role in the occurrence of a transition from non-magnetism to ferrimagnetism in MoSi2N4 monolayer. The effect of biaxial strain on the magnetic properties of the two systems with ONin and VNin was subsequently investigated. It is found that the total magnetic moments are less sensitive to biaxial strain whereas the local magnetic moments residing on the Mo atoms are increased for the two systems with ONin and VNin, as strain increases from -3% to 10% and from -9% to 10%, respectively. Furthermore, the magnetic phase transitions between ferrimagnetic and paramagnetic states were found to occur around -4% strain and within the range from -10% to -9% for the two systems with ONin and VNin, respectively. This study may provide a guidance for the application of MoSi2N4 monolayer in the spintronic and magnetic materials.