Core–shell WS2@WTe2/MoTe2 nanotubes

Vojtech Kundrat; Lothar Houben; Jakub Zalesak; David Holec; Iddo Pinkas; Reshef Tenne

doi:10.1002/sstr.202500258Digital Object Identifier (DOI)

Core–shell WS2@WTe2/MoTe2 nanotubes

Vojtech Kundrat
, Lothar Houben
, Jakub Zalesak
, David Holec
, Iddo Pinkas
, Reshef Tenne

Chair of Physical Metallurgy (420)

Weizmann Institute of Science, Israel
SMBS - University of Salzburg Business School, Sigmund-Haffner-Gasse 18, A-5020 Salzburg, Austria

Research output: Contribution to journal › Article › Research › peer-review

Abstract

WTe₂ and MoTe₂ are materials with a layered structure (2D materials) belonging to the transition metal dichalcogenide family of compounds. Their topological 1T′ polytype has not been fabricated and studied in a 1D nanotubular structure, so far. Hereby, the synthesis and detailed structural characterization of core–shell WTe₂ and MoTe₂ nanotubes (NTs) synthesized on top of WS₂ NTs scaffold utilizing van der Waals epitaxy are reported. The excitonic states in core-shell 1D WS₂@MoTe₂ nanostructures are experimentally followed and compared with theoretical calculations. Notably, direct evidence of spin–orbit coupling-induced band splitting in the conduction band is detected in the 2H-MoTe₂. The successful synthesis of WTe₂ and MoTe₂ NTs opens up a spectrum of fundamental and technological avenues for studies focusing on the combination of strained nanotubular morphology and topological and other properties.

Original language	English
Article number	2500258
Number of pages	6
Journal	Small Structure
Volume	2025
Issue number	Volume 6, Issue 10
DOIs	https://doi.org/10.1002/sstr.202500258Digital Object Identifier (DOI)
Publication status	Published - 6 Aug 2025

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UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

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10.1002/sstr.202500258Digital Object Identifier (DOI)

Cite this

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title = "Core–shell WS2@WTe2/MoTe2 nanotubes",

abstract = "WTe2 and MoTe2 are materials with a layered structure (2D materials) belonging to the transition metal dichalcogenide family of compounds. Their topological 1T′ polytype has not been fabricated and studied in a 1D nanotubular structure, so far. Hereby, the synthesis and detailed structural characterization of core–shell WTe2 and MoTe2 nanotubes (NTs) synthesized on top of WS2 NTs scaffold utilizing van der Waals epitaxy are reported. The excitonic states in core-shell 1D WS2@MoTe2 nanostructures are experimentally followed and compared with theoretical calculations. Notably, direct evidence of spin–orbit coupling-induced band splitting in the conduction band is detected in the 2H-MoTe2. The successful synthesis of WTe2 and MoTe2 NTs opens up a spectrum of fundamental and technological avenues for studies focusing on the combination of strained nanotubular morphology and topological and other properties.",

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T1 - Core–shell WS2@WTe2/MoTe2 nanotubes

AU - Kundrat, Vojtech

AU - Houben, Lothar

AU - Zalesak, Jakub

AU - Holec, David

AU - Pinkas, Iddo

AU - Tenne, Reshef

PY - 2025/8/6

Y1 - 2025/8/6

N2 - WTe2 and MoTe2 are materials with a layered structure (2D materials) belonging to the transition metal dichalcogenide family of compounds. Their topological 1T′ polytype has not been fabricated and studied in a 1D nanotubular structure, so far. Hereby, the synthesis and detailed structural characterization of core–shell WTe2 and MoTe2 nanotubes (NTs) synthesized on top of WS2 NTs scaffold utilizing van der Waals epitaxy are reported. The excitonic states in core-shell 1D WS2@MoTe2 nanostructures are experimentally followed and compared with theoretical calculations. Notably, direct evidence of spin–orbit coupling-induced band splitting in the conduction band is detected in the 2H-MoTe2. The successful synthesis of WTe2 and MoTe2 NTs opens up a spectrum of fundamental and technological avenues for studies focusing on the combination of strained nanotubular morphology and topological and other properties.

AB - WTe2 and MoTe2 are materials with a layered structure (2D materials) belonging to the transition metal dichalcogenide family of compounds. Their topological 1T′ polytype has not been fabricated and studied in a 1D nanotubular structure, so far. Hereby, the synthesis and detailed structural characterization of core–shell WTe2 and MoTe2 nanotubes (NTs) synthesized on top of WS2 NTs scaffold utilizing van der Waals epitaxy are reported. The excitonic states in core-shell 1D WS2@MoTe2 nanostructures are experimentally followed and compared with theoretical calculations. Notably, direct evidence of spin–orbit coupling-induced band splitting in the conduction band is detected in the 2H-MoTe2. The successful synthesis of WTe2 and MoTe2 NTs opens up a spectrum of fundamental and technological avenues for studies focusing on the combination of strained nanotubular morphology and topological and other properties.

UR - https://www.scopus.com/pages/publications/105012394267

U2 - 10.1002/sstr.202500258Digital Object Identifier (DOI)

DO - 10.1002/sstr.202500258Digital Object Identifier (DOI)

M3 - Article

SN - 2688-4062

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JO - Small Structure

JF - Small Structure

IS - Volume 6, Issue 10

M1 - 2500258

ER -

Core–shell WS2@WTe2/MoTe2 nanotubes

Abstract

Bibliographical note

UN SDGs

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