Bulletin of the American Physical Society
2024 APS March Meeting
Monday–Friday, March 4–8, 2024; Minneapolis & Virtual
Session T15: Superconductivity in One and Two Dimensions II
11:30 AM–1:42 PM,
Thursday, March 7, 2024
Room: M100F
Sponsoring
Unit:
DCMP
Chair: Zeyu Hao, Harvard University
Abstract: T15.00011 : Synthesis and electronic transport of superconducting molybdenum nitride ultrathin crystalline platelets*
1:30 PM–1:42 PM
Presenter:
Da Zhou
(Pennsylvania State University)
Authors:
Da Zhou
(Pennsylvania State University)
David E Sanchez
(Pennsylvania State University)
Alexander J Sredenschek
(Pennsylvania State University)
Jiayang Wang
(Pennsylvania State University)
Le Yi
(Pennsylvania State University)
Yuxin Gao
(Pennsylvania State University)
Morteza Kayyalha
(Pennsylvania State University)
Susan B Sinnott
(Pennsylvania State University)
Mauricio Terrones
(Pennsylvania State University)
In our study, ultrathin MoNx nanoplatelets were grown by LMCVD, and the morphology was characterized by scanning electron microscope, atomic force microscopy, and scanning/transmission electron microscope. Various flakes with different thicknesses were measured. For 120 nm thick platelets, the onset superconducting transition temperature was 12.11K which is comparable to the bulk Tc values, also showing a sharp transition width smaller than 0.1K, indicating a high degree of crystallinity. A magnetic field in the out-of-plane direction was applied and a series of magnetotransport measurements were performed. The linear temperature dependence behavior of the critical field is consistent with the 2D Ginzburg–Landau formalism for fields perpendicular to the planes, which supports the 2D nature of the superconducting state. By linear fitting the Hc with Tc, we extrapolated the zero-temperature critical field to be around 3.79T and the Ginzburg-Landau coherence length at zero temperature to be around 9.3 nm. By analyzing the results from Hall measurements and the longitudinal resistance measurements, the mean free path was estimated to be > 100nm, an order of magnitude higher than the Ginzburg-Landau coherence length, exceeding the superconducting clean limit.
In summary, we have successfully synthesized ultrathin MoNx nanoplatelets through an LMCVD method and conducted electronic transport measurements. We plan to also apply an in-plane magnetic field to probe the anisotropy and dimensionality of the superconducting state.Â
*This work was supported by the Basic Office of Science of the Department of Energy under Award DE-SC0018025.
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