Inspired by the rich physical properties of IV-VI compounds, we choose polycrystalline Pb0.99Cr0.01Se to investigate its structural, vibrational, and electrical transport properties under pressure up to 50 GPa. The structural transitions from the B1 to Pnma phase and then to the B2 phase in this sample are verified by the x-ray diffraction and Raman scattering measurements. The formation of the intermediate phase is suggested to be mediated by Peierls distortion, and the broad hump in the temperature-dependent resistivity in the intermediate phase gives further evidence of this phenomenon. When the material evolves into the B2 phase, superconductivity is observed to emerge, accompanied by suppressing the broad hump of resistivity at intermediate temperatures. Meanwhile, Hall coefficient measurements indicate that the carrier type changes during the structural transitions. These results suggest that the superconductivity in the B2 phase for this material is originated by “melting” the Peierls lattice distortion. By extending the present findings to other similar IV-VI semiconductors, we propose that all group IV-VI compounds could exhibit superconductivity in their B2 phase due to the lattice melting at high pressures.

Liu-Cheng Chen, Pei-Qi Chen, Wei-Jian Li, Qian Zhang, Viktor V. Struzhkin, Alexander F. Goncharov, Zhifeng Ren, Xiao-Jia Chen, Lattice melting and superconductivity in a group IV-VI compound, (2021) Phys. Rev. B, 103 (21)  DOI : 10.1103/PhysRevB.103.214516 abstract

(a) Synchrotron x-ray diffraction patterns of Pb0.99Cr0.01Se at room temperature and various pressures up to 48.5 GPa. (b) Typical data points and refinement results at pressure of 1.2, 14.5, and 46.3 GPa using the Rietveld method. The experimental data points are presented as small open circles. The calculated values based on the different structures are shown by the thin curves. The Bragg peak positions are marked by the sticks in each panel. The differences between the experiments and calculations are shown by the thin curve at the bottom of each panel. (c) The structures of the B1Pnma, and B2 phases, with olive circles for Pb(Cr) atoms and pink circles for Se atoms.