超导电性
接口(物质)
材料科学
超导转变温度
纳米技术
工程物理
光学(聚焦)
高温超导
凝聚态物理
物理
复合材料
毛细管数
光学
毛细管作用
作者
Yichen Liu,Qingxiao Meng,Pezhman Mahmoudi,Sheng Wang,Ji Zhang,Jack Yang,Wenxian Li,Danyang Wang,Zhi Li,Charles C. Sorrell,Sean Li
标识
DOI:10.1002/adma.202405009
摘要
Abstract The development of superconducting materials has attracted significant attention not only for their improved performance, such as high transition temperature ( T C ), but also for the exploration of their underlying physical mechanisms. Recently, considerable efforts have been focused on interfaces of materials, a distinct category capable of inducing superconductivity at non‐superconducting material interfaces or augmenting the T C at the interface between a superconducting material and a non‐superconducting material. Here, two distinct types of interfaces along with their unique characteristics are reviewed: interfacial superconductivity and interface‐enhanced superconductivity, with a focus on the crucial factors and potential mechanisms responsible for enhancing superconducting performance. A series of materials systems is discussed, encompassing both historical developments and recent progress from the perspectives of technical innovations and the exploration of new material classes. The overarching goal is to illuminate pathways toward achieving high T C , expanding the potential of superconducting parameters across interfaces, and propelling superconductivity research toward practical, high‐temperature applications.
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