Dimensionality-driven orthorhombic MoTe2 at room temperature

Rui He; Shazhou Zhong; Hyun Ho Kim; Gaihua Ye; Zhipeng Ye; Logan Winford; Adam Tsen

Dimensionality-driven orthorhombic MoTe<sub>2</sub> at room temperature

ORAL

Abstract

We use variable-temperature Raman spectroscopy to study thin flakes of the type-II Weyl semimetal candidate MoTe₂ protected from oxidation. In contrast to bulk crystals, which undergo a phase transition from monoclinic to the inversion symmetry breaking, orthorhombic phase below ~250 K, we find that in moderately thin samples below ~12 nm, a single orthorhombic phase exists up to and beyond room temperature by monitoring characteristic Raman lines from the orthorhombic phase. We propose a c-axis confinement mechanism to interpret this thickness-driven phase stabilization.

^*Supported by NSF (CAREER Grant No. 1760668, RUI Grant No. DMR-1410496, and MRI Grant No. DMR-1337207) and NSERC Discovery grant (RGPIN-2017-03815).

March 8, 2018, 3:30 PM – March 8, 2018, 3:42 PM

Presenters

Rui He
- Texas Tech Univ

Authors

Rui He
- Texas Tech Univ
Shazhou Zhong
- Univ of Waterloo
Hyun Ho Kim
- Univ of Waterloo
- IQC, Univ of Waterloo
Gaihua Ye
- Univ of Northern Iowa
- University of Northern Iowa
Zhipeng Ye
- Texas Tech Univ
Logan Winford
- Univ of Northern Iowa
Adam Tsen
- University of Waterloo
- Chemistry, University of Waterloo
- Univ of Waterloo
- IQC, Univ of Waterloo