Topotactic fabrication of transition metal dichalcogenide superconducting nanocircuits

Xiaohan Wang; Hao Wang; Liang Ma; Labao Zhang; Zhuolin Yang; Daxing Dong; Xi Chen; Haochen Li; Yanqiu Guan; Biao Zhang; Qi Chen; Lili Shi; Hui Li; Zhi Qin; Xuecou Tu; Lijian Zhang; Xiaoqing Jia; Jian Chen; Lin Kang; Peiheng Wu

doi:10.1038/s41467-023-39997-y

Nature Communications (Jul 2023)

Topotactic fabrication of transition metal dichalcogenide superconducting nanocircuits

Xiaohan Wang,
Hao Wang,
Liang Ma,
Labao Zhang,
Zhuolin Yang,
Daxing Dong,
Xi Chen,
Haochen Li,
Yanqiu Guan,
Biao Zhang,
Qi Chen,
Lili Shi,
Hui Li,
Zhi Qin,
Xuecou Tu,
Lijian Zhang,
Xiaoqing Jia,
Jian Chen,
Lin Kang,
Peiheng Wu

Affiliations

Xiaohan Wang: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Hao Wang: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Liang Ma: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Labao Zhang: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Zhuolin Yang: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Daxing Dong: Department of Applied Physics, Nanjing University of Aeronautics and Astronautics
Xi Chen: Department of Physics, Tsinghua University
Haochen Li: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Yanqiu Guan: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Biao Zhang: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Qi Chen: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Lili Shi: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Hui Li: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Zhi Qin: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Xuecou Tu: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Lijian Zhang: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Xiaoqing Jia: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Jian Chen: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Lin Kang: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University
Peiheng Wu: Research Institute of Superconductor Electronics, School of Electronic Science and Engineering, College of Engineering and Applied Science, Nanjing University

DOI: https://doi.org/10.1038/s41467-023-39997-y
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 8

Abstract

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Abstract Superconducting nanocircuits, which are usually fabricated from superconductor films, are the core of superconducting electronic devices. While emerging transition-metal dichalcogenide superconductors (TMDSCs) with exotic properties show promise for exploiting new superconducting mechanisms and applications, their environmental instability leads to a substantial challenge for the nondestructive preparation of TMDSC nanocircuits. Here, we report a universal strategy to fabricate TMDSC nanopatterns via a topotactic conversion method using prepatterned metals as precursors. Typically, robust NbSe2 meandering nanowires can be controllably manufactured on a wafer scale, by which a superconducting nanowire circuit is principally demonstrated toward potential single photon detection. Moreover, versatile superconducting nanocircuits, e.g., periodical circle/triangle hole arrays and spiral nanowires, can be prepared with selected TMD materials (NbS2, TiSe2, or MoTe2). This work provides a generic approach for fabricating nondestructive TMDSC nanocircuits with precise control, which paves the way for the application of TMDSCs in future electronics.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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