Slippery paraelectric transition-metal dichalcogenide bilayers

Joseph E Roll; Juan M Marmolejo-Tejada; Shiva P Poudel; Salvador Barraza-Lopez; Martin A Mosquera

Slippery paraelectric transition-metal dichalcogenide bilayers

ORAL

Abstract

Traditional ferroelectrics undergo thermally induced phase transitions whereby their structural symmetry increases. The associated higher-symmetry structure is dubbed paraelectric. Ferroelectric transition-metal dichalcogenide bilayers have been recently shown to become paraelectric [1], but not much has been said of the atomistic configuration of such a phase. In this presentation, numerical calculations that include molecular dynamics showcase this paraelectric atomistic structure [2].

March 6, 2023, 8:00 PM – March 6, 2023, 8:12 PM

Publication: [1] Y. Liu, S. Liu, B. Li, W. J. Yoo, and J. Hone Nano Letters, 22:1265-1269 (2022)<br>[2] J. Marmolejo-Tejada, J. Roll, S. Poudel, S. Barraza-Lopez, and M. Mosquera Nano Letters, 22:7984-7991 (2022)

Presenters

Joseph E Roll

University of Arkansas

Authors

Joseph E Roll

University of Arkansas
Juan M Marmolejo-Tejada

Montana State University
Shiva P Poudel

University of Arkansas
Salvador Barraza-Lopez

University of Arkansas
Martin A Mosquera

Montana State University, University of Montanna