4.6 Article

Superconducting Properties of Pd1-XPtXBi2 over a Wide Pressure Range

期刊

JOURNAL OF PHYSICAL CHEMISTRY C
卷 126, 期 23, 页码 9948-9955

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acs.jpcc.2c01972

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资金

  1. MEXT [19H02676, 20H05878, 20H05879]
  2. Program for Promoting the Enhancement of Research Universities
  3. [2018B4140]
  4. [2019A4131]
  5. Grants-in-Aid for Scientific Research [20H05879, 19H02676] Funding Source: KAKEN

向作者/读者索取更多资源

New superconducting materials Pd1-xPtxBi2 were prepared via Pt doping of PdBi2, with the highest Tc value of 4.35 K observed at x = 0.12. The study investigated the crystal structure and superconducting transition temperature of Pd0.88(6)Pt0.12(6)Bi2.2(2) over a wide pressure range, showing a shift in superconducting behavior from alpha phase to beta phase with increasing pressure.
The topological insulator, PdBi2, exhibits two different crystal phases (i.e., alpha-PdBi2 and beta-PdBi2) at ambient pressure. Here, we prepared new superconducting materials, Pd1-xPtxBi2, via Pt doping of PdBi2 and investigated their superconducting properties. Pt doping of PdBi2 may be anticipated to show higher superconducting transition temperature Tc than pure PdBi2 because of the example that Pt doping of PdTe2 (Tc = 2.0 K) leads to higher Tc (Tc = 3.2 K for Pd0.25Pt0.75Te2) via reconstruction of Fermi surface topology. The Pd1-xPtxBi2 samples prepared in this study contained both the alpha and beta phases, as seen in the XRD patterns. The x dependence of Tc was investigated for Pd1-xPtxBi2; the highest Tc value (4.35 K) was observed at x = 0.12, which was probably due to the beta phase. In this study, the crystal structure and superconducting transition temperature of Pd0.88(6)Pt0.12(6)Bi2.2(2) are fully investigated over a wide pressure (p) range. Both alpha phase and beta phase remain up to a pressure of approximately 20 GPa; however, the amount of the alpha phase gradually decreased with an increase in pressure. The pressure dependence of unit cell volume V of the alpha and beta phases resulted in smooth shrinkage of the lattice. The temperature (T) dependence of the electrical resistance (R) at different pressures showed enhancement of Tc of the alpha phase with pressure and almost constant Tc in the beta phase, with a trend that is similar to that of alpha-PdBi2 and beta-PdBi2. The temperature dependence of the upper critical field at 10.5 GPa suggested that it deviates from the simple s-wave dirty/clean limit model and follows the p-wave polar model, which causes the topologically nontrivial nature of superconductivity.

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