Superconductivity versus structural phase transition in the closely related Bi2 Rh 3.5S 2 and Bi2 Rh 3S 2

Abstract

Single crystals of Bi2 Rh 3S 2 and Bi2 Rh 3.5S 2 were synthesized by solution growth and the crystal structures, thermodynamic and transport properties of both compounds were studied. In the case of Bi2 Rh 3S 2, a structural first-order transition at around 165 K is identified by single crystal diffraction experiments, with clear signatures visible in resistivity, magnetization and specific heat data. No superconducting transition for Bi2 Rh 3S 2 was observed down to 0.5 K. In contrast, no structural phase transition at high temperature was observed for Bi2 Rh 3.5S 2, however bulk superconductivity with a critical temperature, Tc≈ 1.7 K was observed. The Sommerfeld coefficient γ\ and the Debye temperature(D) were found to be 9.4 mJ mol-1 K-2 and 209 K respectively for Bi2 Rh 3S 2, and 22 mJ mol-1 K-2 and 196 K respectively for Bi2 Rh 3.5S 2. Study of the specific heat in the superconducting state of Bi2 Rh 3.5S 2 suggests that Bi2 Rh 3.5S 2 is a weakly coupled, BCS superconductor.