Abstract :
We report measurements of the temperature and pressure dependence of the electrical resistivity ( ρ ) of single-crystalline iron-based chalcogenide Cs0.8Fe2Se2. In this material, superconductivity with a transition temperature ( T c ) ∼ 30 K develops from a normal state with extremely large resistivity. At ambient pressure, a large “hump” in the resistivity is observed around 200 K. Under pressure, the resistivity decreases by two orders of magnitude, concomitant with a sudden T c suppression around p c ∼ 8 GPa . Even at 9 GPa a metallic resistivity state is not recovered, and the ρ ( T ) “hump” is still detected. A comparison of the data measured upon increasing and decreasing the external pressure leads us to suggest that the superconductivity is not related to this hump.
