来源 Zotero
作者 Eun Kyo Ko, Yijun Yu, Yidi Liu, Lopa Bhatt, Jiarui Li, Vivek Thampy, Cheng-Tai Kuo, Bai Yang Wang, Yonghun Lee, Kyuho Lee, Jun-Sik Lee, Berit H. Goodge, David A. Muller, Harold Y. Hwang
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发布日期 2025-02-01
研究范式 实验研究
样品形态 薄膜

摘要

Recently, the bilayer nickelate La3Ni2O7 has been discovered as a new superconductor with transition temperature Tc near 80 K under high pressure1–3. Despite extensive theoretical and experimental work to understand the nature of its superconductivity4–29, the requirement of extreme pressure restricts the use of many experimental probes and limits its application potential. Here we present signatures of superconductivity in La3Ni2O7 thin films at ambient pressure, facilitated by the application of epitaxial compressive strain. The onset Tc varies roughly from 26 to 42 K, with higher Tc values correlating with smaller in-plane lattice constants. We observed the co-existence of other Ruddlesden–Popper phases within the films and dependence of transport behaviour with ozone annealing, suggesting that the observed low zero resistance Tc of around 2 K can be attributed to stacking defects, grain boundaries and oxygen stoichiometry. This finding initiates numerous opportunities to stabilize and study superconductivity in bilayer nickelates at ambient pressure, and to facilitate the broad understanding of the ever-growing number of high temperature and unconventional superconductors in the transition metal oxides.

材料

方法

关键词

亮点

  • The coexistence of other Ruddlesden–Popper phases within the films is observed.
  • This finding facilitates broad understanding of high temperature and unconventional superconductors in transition metal oxides.

结论

  • Signatures of superconductivity at ambient pressure are observed in La3Ni2O7 thin films with onset Tc from 26 to 42 K.
  • Low zero resistance Tc of around 2 K is attributed to stacking defects, grain boundaries, and oxygen stoichiometry.

主要论断

  • Signatures of ambient pressure superconductivity observed in compressively strained La3Ni2O7 thin films, with onset Tc up to 42 K.
    • 证据: Abstract: 'we present signatures of superconductivity in La3Ni2O7 thin films at ambient pressure',Abstract: 'onset Tc varies roughly from 26 to 42 K'
  • Higher Tc correlates with smaller in-plane lattice constants (higher compressive strain).
    • 证据: Abstract: 'higher Tc values correlating with smaller in-plane lattice constants',Fig. 5: Tc,onset vs in-plane lattice constant
  • Zero resistance (Tc ≈2 K) is limited by structural defects, stacking faults, and oxygen stoichiometry variations.
    • 证据: Abstract: 'suggesting that the observed low zero resistance Tc of around 2 K can be attributed to stacking defects, grain boundaries and oxygen stoichiometry'

研究流程

  • film_growth — La3Ni2O7 thin films with varying epitaxial strain fabricated.
    • 材料: La3Ni2O7 target; SrTiO3 capping layer; LSAT(001), LAO(001), SLAO(001) substrates
    • 方法: pulsed laser deposition
    • 观察: films grown on various substrates with different lattice mismatch
  • ozone_annealing — Ozone annealing increases Ni oxidation state and induces metallicity.
    • 材料: as-grown films
    • 方法: ozone annealing at 300°C for ≈2h; O3 concentration ≈0.4 wt%
    • 观察: as-grown films insulating become metallic after annealing; Ni valence changes from ≈2.45+ to ≈2.5+
  • structural_characterization — Higher compressive strain and higher LNO327 phase purity correlate with higher Tc.
    • 材料: annealed films
    • 方法: XRD θ-2θ scans; synchrotron reciprocal space mapping; STEM
    • 观察: films on SLAO have highest compressive strain; coexistence of LNO214 and LNO4310 phases in some films; in-plane lattice constant correlated with Tc
  • transport_measurements — Signatures of ambient pressure superconductivity in strained La3Ni2O7 films.
    • 材料: films with Au electrodes
    • 方法: resistivity vs T; Hall effect; critical current; mutual inductance
    • 观察: superconducting onset Tc26-42K; zero resistance Tc ≈2K; two-step transitions; Jc ≈0.3 kA/cm2 at 150 mK; diamagnetic response below 2K
  • valence_analysis — Increased Ni valence after ozone annealing supports oxygen stoichiometry change.
    • 材料: films
    • 方法: X-ray absorption spectroscopy (XAS) at Ni L2-edge
    • 观察: Ni2+/Ni3+ ratio changes from 55:45 to 50:50 upon annealing