Materials Research on High-Entropy Alloy Superconductors

Abstract: The first purpose of this chapter is materials research on face-centered-cubic (fcc) high-entropy alloy (HEA) superconductors, which have not yet been reported. We have investigated several Nb-containing multicomponent alloys. Although we succeeded in obtaining Nb-containing samples with the dominant fcc phases, no superconducting signals appeared in these samples down to 3 K. The microstructure analyses revealed that all samples were multi-phase, but the existence of several new Nb-containing HEA phases was c… Show more

“…The understanding of suitable mechanisms for superconductivity in HEAs still revolves around valence electron concentration (VEC), which is rather a good approximation for the observed functional behaviour. 15,16 For instance, it has been observed in the case of traditional superconductors that the microstructure has an influence on J c . 7,17,18 Even a slight variation in the grain size or the introduction of secondary phases and precipitates can result in huge variation in superconductivity.…”

A novel bulk (Nb,Zr,Pt)₆₇Ti₃₃ high-entropy alloy superconductor: synthesis and structure–property relationship

“…The understanding of suitable mechanisms for superconductivity in HEAs still revolves around valence electron concentration (VEC), which is rather a good approximation for the observed functional behaviour. 15,16 For instance, it has been observed in the case of traditional superconductors that the microstructure has an influence on J c . 7,17,18 Even a slight variation in the grain size or the introduction of secondary phases and precipitates can result in huge variation in superconductivity.…”

A novel bulk (Nb,Zr,Pt)₆₇Ti₃₃ high-entropy alloy superconductor: synthesis and structure–property relationship