Realizing T<sub>d</sub> phase at room temperature in ultrathin MoTe<sub>2</sub>

POSTER

Abstract

MoTe2 emerges as a new type of transition metal dichalcogenide (TMD) whose differnet polymorphs show very different properties. In bulk MoTe, both hexagonal 2H phase (semiconducting) and monmclinic 1T' phase (semimetallic) can be formed at room temperature depending on the growth conditions. When temperature is lowered to 250K, the 1T' phase transforms into an orthorhombic Td phase in which the MoTe2 crystal is a type-II Weyl semimetal with novel quantum phenomena. We exfoliated 1T'-MoTe2 flakes on SiO2 substrates and protected them with boron nitride from oxidation. Electrical transport measurements show that the ultrathin flakes do not show a phase transition below 250K. Raman studies reveal that the MoTe2 ultrathin flakes exhibit a Td phase even at room temperature, making it a potential host material for realizing type-II Weyl semimetal at room temperature.

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

Presenters

  • Gaihua Ye

    • Texas Tech University
    • Department of Electrical and Computer Engineering, Texas Tech University

Authors

  • Gaihua Ye

    • Texas Tech University
    • Department of Electrical and Computer Engineering, Texas Tech University

  • Zhipeng Ye

    • Texas Tech University
    • Department of Electrical and Computer Engineering, Texas Tech University

  • Rui He

    • Texas Tech University
    • Department of Electrical and Computer Engineering, Texas Tech University

  • logan winford

    • University of Northern Iowa

  • Shazhou Zhong

    • University of Waterloo, Canada
    • Physics, University of Waterloo

  • Hyun Ho Kim

    • University of Waterloo, Canada
    • University of Waterloo

  • Adam Tsen

    • University of Waterloo, Canada
    • University of Waterloo
    • Chemistry, University of Waterloo