| Literature DB >> 31595592 |
Peiling Li1,2, Jian Cui1, Jiadong Zhou3, Dong Guo1, Zhenzheng Zhao1, Jian Yi4, Jie Fan1, Zhongqing Ji1,5, Xiunian Jing1,5,6, Fanming Qu1, Changli Yang1,6, Li Lu1,6, Junhao Lin7,8, Zheng Liu3, Guangtong Liu1,5.
Abstract
Consecutively tailoring few-layer transition metal dichalcogenides MX2 from 2H to Td phase may realize the long-sought topological superconductivity in a single material system by incorporating superconductivity and the quantum spin Hall effect together. Here, this study demonstrates that a consecutive structural phase transition from Td to 1T' to 2H polytype can be realized by increasing the Se concentration in Se-substituted MoTe2 thin films. More importantly, the Se-substitution is found to dramatically enhance the superconductivity of the MoTe2 thin film, which is interpreted as the introduction of two-band superconductivity. The chemical-constituent-induced phase transition offers a new strategy to study the s+- superconductivity and the possible topological superconductivity, as well as to develop phase-sensitive devices based on MX2 materials.Entities:
Keywords: MoSeTe; chemical vapor deposition; phase evolution; superconductivity enhancement
Year: 2019 PMID: 31595592 DOI: 10.1002/adma.201904641
Source DB: PubMed Journal: Adv Mater ISSN: 0935-9648 Impact factor: 30.849