High-Pressure Synthesis of High-Entropy Metal Disulfides with Pyrite-Type Structure

We succeed in synthesizing equimolar-multi metal solid solutions of (Fe, Co, Ni, Cu)S-2 and (Fe, Co, Ni, Cu, Ru)S-2 by sintering at 900 degrees C under 2-4 GPa. These were stabilized by the high-entropy effect. Nevertheless, (Fe, Co, Ni, Cu, M)S-2 (M = Zn, Mn, or Cd) was not obtained as single phase under the same synthetic conditions, mostly owing to the relatively large ionic radius of M2+. Single-crystal X-ray diffraction analysis shows that (Fe, Co, Ni, Cu)S-2 crystallizes into a pyrite type with the space group Pa (3) over bar (#205) [a = 5.777(3) angstrom], randomly distributed at one site. The results of electrical resistivity and magnetic dc-susceptibility measurements indicate that both (Fe, Co, Ni, Cu)S-2 and (Fe, Co, Ni, Cu, Ru)S-2 are metals with ferrimagnetic ordering below T-c = 130 K. The band structure and the projected density of states (Fe, Co, Ni, Cu)S-2, were obtained by density functional theory calculations in a high-entropy representative supercell, supporting the experimental results.