超导电性
相图
凝聚态物理
维数之咒
各向异性
非阻塞I/O
材料科学
兴奋剂
相(物质)
图表
工作(物理)
物理
电子结构
高温超导
电子
作者
Grace A. Pan,Dan Ferenc Segedin,Sophia F. R. TenHuisen,Lopa Bhatt,Harrison LaBollita,A. Jiang,Qi Song,Ari B. Turkiewicz,Denitsa R. Baykusheva,Abhishek Nag,Stefano Agrestini,Ke‐Jin Zhou,Jonathan Pelliciari,Valentina Bisogni,Hua Zhou,M. P. M. Dean,Hanjong Paik,David A. Muller,Lena F. Kourkoutis,Charles M. Brooks
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2026-06-25
卷期号:392 (6805): 1390-1395
标识
DOI:10.1126/science.adp4440
摘要
The discovery of superconductivity in square-planar nickelates has offered a rich materials platform to explore the origins of high-temperature superconductivity. However, experimental investigations have largely been limited to the infinite-layer R NiO 2 ( R , rare earth) nickelates. We constructed a phase diagram of multilayer square-planar Nd n +1 Ni n O 2 n +2 compounds and found signatures of superconductivity for dimensionality n = 4 to 8. Upon decreasing n , the superconducting anisotropy evolves owing to 4 f electron effects, and electronic structure characteristics approach cuprate-like behavior. Magnetic fluctuations persist from within the superconducting regime and into the overdoped, nonsuperconducting regime. The superconducting regime overlaps with that of chemically doped infinite-layer nickelates, demonstrating underlying commonalities as well as differences across varying structural realizations of square-planar nickelates. Our work establishes this layered template for creating new nickel-based superconductors.
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