Superconductivity: Long‐Range Ordered Amorphous Atomic Chains as Building Blocks of a Superconducting Quasi‐One‐Dimensional Crystal (Adv. Mater. 38/2020),Advanced Materials

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Superconductivity: Long‐Range Ordered Amorphous Atomic Chains as Building Blocks of a Superconducting Quasi‐One‐Dimensional Crystal (Adv. Mater. 38/2020)
Advanced Materials ( IF 27.4 ) Pub Date : 2020-09-21 , DOI: 10.1002/adma.202070289
Chao An ₁ , Yonghui Zhou ₂ , Chunhua Chen ₂ , Fucong Fei ₃ , Fengqi Song ₃ , Changyong Park ₄ , Jianhui Zhou ₂ , Horst‐Günter Rubahn ₅ , Victor V. Moshchalkov ₆ , Xuliang Chen ₂ , Gufei Zhang ₅ , Zhaorong Yang _{1,

2}

Affiliation

Crystalline and amorphous structures are two of the most common solid‐state phases. The combination of short‐range disordered and long‐range ordered structures at the atomic level is extremely rare. In article number 2002352, Xuliang Chen, Gufei Zhang, Zhaorong Yang, and co‐workers develop a system with long‐range ordered but short‐range disordered building blocks by compressing a linear chain compound under high pressure. Thus a first case where superconductivity is hosted by a lattice with periodic but amorphous constituent atomic chains is demonstrated.

中文翻译：

超导性：远程有序无定形原子链作为超导准一维晶体的构建基块（材料研究学报38/2020）

晶体和非晶态结构是两种最常见的固态相。在原子水平上短程无序和长程有序结构的结合非常少见。在编号2002352中，陈旭亮，张谷飞，杨兆荣和他的同事通过在高压下压缩线性链化合物开发了一种具有长程有序但短程无序构建基的系统。因此，证明了第一种情况，其中超导电性由具有周期性但无定形的组成原子链的晶格占据。

更新日期：2020-09-21

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