Superconductivity from On-Chip Metallization on 2D Topological Chalcogenides

Yanyu Jia; Guo Yu; Tiancheng Song; Fang Yuan; Ayelet J. Uzan; Yue Tang; Pengjie Wang; Ratnadwip Singha; Michael Onyszczak; Zhaoyi Joy Zheng; Kenji Watanabe; Takashi Taniguchi; Leslie M. Schoop; Sanfeng Wu

doi:10.1103/physrevx.14.021051

論文 Superconductivity from On-Chip Metallization on 2D Topological Chalcogenides

Yanyu Jia ; Guo Yu ; Tiancheng Song ; Fang Yuan ; Ayelet J. Uzan ; Yue Tang ; Pengjie Wang ; Ratnadwip Singha ; Michael Onyszczak ; Zhaoyi Joy Zheng ; Kenji Watanabe (National Institute for Materials Science) ; Takashi Taniguchi (National Institute for Materials Science) ; Leslie M. Schoop ; Sanfeng Wu

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Yanyu Jia, Guo Yu, Tiancheng Song, Fang Yuan, Ayelet J. Uzan, Yue Tang, Pengjie Wang, Ratnadwip Singha, Michael Onyszczak, Zhaoyi Joy Zheng, Kenji Watanabe, Takashi Taniguchi, Leslie M. Schoop, Sanfeng Wu. Superconductivity from On-Chip Metallization on 2D Topological Chalcogenides. Physical Review X. 2024, 14 (2), 021051. https://doi.org/10.1103/physrevx.14.021051

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(abstract)

Two-dimensional (2D) transition metal dichalcogenides (TMDs) are a versatile class of quantum materials of interest to various fields including, e.g., nanoelectronics, optical devices, and topological and correlated quantum matter. Tailoring the electronic properties of TMDs is essential to their applications in many directions. Here we report that a highly controllable and uniform on-chip 2D metallization process converts a class of atomically thin TMDs into robust superconductors, a property belonging to none of the starting materials. As examples, we demonstrate the introduction of superconductivity into a class of 2D air-sensitive topological TMDs, including monolayers of Td-WTe2, 1T’-MoTe2 and 2H-MoTe2, as well as their natural and twisted bilayers, metalized with an ultrathin layer of Palladium. This class of TMDs are known to exhibit intriguing topological phases ranging from topological insulator, Weyl semimetal to fractional Chern insulator. The unique, high quality two-dimensional metallization process is based on our recent finding of the long-distance non-Fickian in-plane mass transport and chemistry in 2D that occur at surprisingly low temperatures and in devices fully encapsulated with inert insulating layers. Highly compatible with existing nanofabrication techniques for van der Waals (vdW) stacks, our results offer a route to designing and engineering superconductivity and topological phases in a class of correlated 2D materials.

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