Growth and magnetotransport properties of semi-metallic WTe2 nanoribbons

Natalia Amirulloieva; Jeļena Sušinska; Aija Trimdale-Deksne; Reinis Ignatans; Martins Zubkins; Jevgenijs Gabrusenoks; Anatolijs Sarakovskis; Gunta Kunakova

doi:10.1063/5.0253094

APL Materials (Apr 2025)

Growth and magnetotransport properties of semi-metallic WTe2 nanoribbons

Natalia Amirulloieva,
Jeļena Sušinska,
Aija Trimdale-Deksne,
Reinis Ignatans,
Martins Zubkins,
Jevgenijs Gabrusenoks,
Anatolijs Sarakovskis,
Gunta Kunakova

Affiliations

Natalia Amirulloieva: Faculty of Science and Technology, Institute of Chemical Physics, University of Latvia, Jelgavas St.1, Riga LV-1004, Latvia
Jeļena Sušinska: Faculty of Science and Technology, Institute of Chemical Physics, University of Latvia, Jelgavas St.1, Riga LV-1004, Latvia
Aija Trimdale-Deksne: Faculty of Medicine and Life Sciences, Department of Chemistry, University of Latvia, Jelgavas St.1, Riga LV-1004, Latvia
Reinis Ignatans: Institute of Solid State Physics, University of Latvia, Ķengaraga St. 8, Riga LV-1063, Latvia
Martins Zubkins: Institute of Solid State Physics, University of Latvia, Ķengaraga St. 8, Riga LV-1063, Latvia
Jevgenijs Gabrusenoks: Institute of Solid State Physics, University of Latvia, Ķengaraga St. 8, Riga LV-1063, Latvia
Anatolijs Sarakovskis: Institute of Solid State Physics, University of Latvia, Ķengaraga St. 8, Riga LV-1063, Latvia
Gunta Kunakova: Faculty of Science and Technology, Institute of Chemical Physics, University of Latvia, Jelgavas St.1, Riga LV-1004, Latvia

DOI: https://doi.org/10.1063/5.0253094
Journal volume & issue: Vol. 13, no. 4
pp. 041128 – 041128-6

Abstract

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Exploring exotic quantum states requires high-quality materials. Tungsten ditelluride (WTe2), a type-II Weyl semimetal, is an important platform for studying these states. Recent discoveries, including the quantum spin Hall effect, higher-order topological insulator (TI) states, and induced superconductivity, have been made on exfoliated flakes. However, this method of sample fabrication is limited by its lack of scalability. For studies of higher-order TI 1D states, ribbon-shaped WTe2 materials with reduced dimensionality are of great importance. Here, we present a simple approach for growing WTe2 nanoribbons from WO3 thin films. Magnetotransport studies, including Hall effect measurements, and the presence of large magnetoresistance at low temperatures confirm the good quality and the semi-metallic nature of the fabricated WTe2 nanoribbons, which is crucial for fundamental studies of one-dimensional topologically protected states.

Published in APL Materials

ISSN: 2166-532X (Online)
Publisher: AIP Publishing LLC
Country of publisher: United States
LCC subjects: Technology: Chemical technology: Biotechnology; Science: Physics
Website: http://aplmaterials.aip.org

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