Pressure-Induced Insulator-to-Metal Transition in van der Waals compound CoPS3
Abstract
We have studied the insulator-to-metal transition and crystal structure evolution under high pressure in the van der Waals compound CoPS3 through in-situ electrical resistance, Hall resistance, magnetoresistance, X-ray diffraction, and Raman scattering measurements. CoPS3 exhibits a C2/m → P3 structural transformation at 7 GPa accompanied by a 2.9\% reduction in the volume per formula unit. Concomitantly, the electrical resistance decreases significantly, and CoPS3 becomes metallic. This metallic CoPS3 is a hole-dominant conductor with multiple conduction bands. The linear magnetoresistance and the small volume collapse at the metallization suggest the incomplete high-spin → low-spin transition in the metallic phase. Thus, the metallic CoPS3 possibly possesses an inhomogeneous magnetic moment distribution and short-range magnetic ordering. This report summarizes the comprehensive phase diagram of MPS3 (M = V, Mn, Fe, Co, Ni, and Cd) that metalize under pressures.
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