Isolation and Characterization of Few-layer Manganese Thiophosphite

Abstract

This work reports an experimental study on an antiferromagnetic honeycomb lattice of MnPS3 that couples the valley degree of freedom to a macroscopic antiferromagnetic order. The crystal structure of MnPS3 is identified by high resolution scanning transmission electron microscopy. Layer dependent angle resolved polarized Raman fingerprints of the MnPS3 crystal are obtained and the Raman peak at 383 cm-1 exhibits 100% polarity. Temperature dependences of anisotropic magnetic susceptibility of MnPS3 crystal are measured in superconducting quantum interference device. Magnetic parameters like effective magnetic moment, and exchange interaction are extracted from the mean field approximation mode. Ambipolar electronic transport channels in MnPS3 are realized by the liquid gating technique. The conducting channel of MnPS3 offers a unique platform for exploring the spin/valleytronics and magnetic orders in 2D limitation.