High-entropy silicide superconductors with W5Si3-type structure

Abstract

We report the synthesis, crystal structure and physical properties of two new high-entropy silicides (HESs), namely (Nb0.1Mo0.3W0.3Re0.2Ru0.1)5Si3 and (Nb0.2Mo0.3W0.3Re0.1Ru0.1)5Si3. Structural analysis indicates that both HESs consist of a (nearly) single tetragonal W5Si3-type phase (space group I4/mcm) with a disordered cation distribution. Electrical resistivity, magnetic susceptibility and specific heat measurements show that (Nb0.1Mo0.3W0.3Re0.2Ru0.1)5Si3 and (Nb0.2Mo0.3W0.3Re0.1Ru0.1)5Si3 are weakly coupled bulk superconductors, which represent the first superconducting high-entropy nonoxide ceramics. In particular, these HESs have higher T c values (3.2-3.3 K) compared with those of the binary counterparts, and their B c2(0)/T c ratios are the largest among superconductors of the same structural type.