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Research Article | Open Access

In situ synthesis of large-area sixfold-oriented Mo6Te6 nanowires networks through hydrogen-assisted annealing of 2H MoTe2 nanosheets

Ying Huangfu1,§Ping Lu1,§Jiang Zhong2,§Qiankun Zhang3Jingyi Liang1Zhengwei Zhang4Biao Qin5Zucheng Zhang1Ziwei Huang1Wei Li1Kun He1Xiaohui Lin1Xiangdong Yang2Jia Li1Bo Li6Weiyou Yang2Zhang Lin7Liyuan Chai7Xidong Duan1 ( )
Hunan Key Laboratory of Two-Dimensional Materials and State Key Laboratory of Chemo and Biosensing, College of Chemistry and Chemical Engineering, Hunan University, Changsha 410082, China
Institute of Micro/Nano Materials and Devices, Ningbo University of Technology, Ningbo 315211, China
School of Mechanical Engineering and Mechanics, Xiangtan University, Xiangtan 411105, China
Hunan Key Laboratory of Nanophotonics and Devices, School of Physics and Electronics, Central South University, Changsha 410083, China
State Key Laboratory for Mesoscopic Physics, Frontiers Science Center for Nano-optoelectronics, School of Physics, Peking University, Beijing 100871, China
College of Semiconductors (College of Integrated Circuits), Hunan University, Changsha 410082, China
School of Metallurgy and Environment, Chinese National Engineering Research Center for Control & Treatment of Heavy Metal Pollution, Central South University, Changsha 410083, China

§ Ying Huangfu, Ping Lu, and Jiang Zhong contributed equally to this work.

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Abstract

Phase transition and edge structure reconstruction of two-dimensional (2D) materials are critical for modulating their properties and applications. Here, we employ a hydrogen-assisted annealing method to accomplish the extensive transformation from a 2H MoTe2 single crystal to Mo6Te6 nanowires and quasi-2D Mo6Te6 nanoribbons. Introducing hydrogen gas during atmospheric pressure annealing process generates a Te-poor chemical environment, which makes the transformations energetically favorable and is essential for the fast growth of Mo6Te6 nanowires. Mo6Te6 nanowires nucleate at the exposed edges of 2H MoTe2 and grow along its [ 112¯0], [ 2¯110], and [ 12¯10] crystallographic directions, demonstrating long-range order and forming quais-2D nanoribbons with lengths up to 50 μm. Finally, nanoribbons align in sixfold oriented directions and form an array within 3 mm2 area on SiO2/Si substrate. Mo6Te6 nanowires display metallic behavior and have large charge transfer with Rhodamine 6G, making them excellent substrates for surface-enhanced Raman scattering. It shows a low detectable concentration of 10−13 mol/L for Rhodamine 6G and a Raman enhancement factor of 7 × 108. Our findings provide an economic and efficient synthesis method for producing sixfold-oriented Mo6Te6 nanowires and nanoribbons networks, which can serve as platform for exploring low-dimensional physical properties, designing electronic devices, and applications in analytical chemistry.

Graphical Abstract

We employ a hydrogen-assisted annealing method to accomplish the extensive transformation from a 2H MoTe2 single crystal to Mo6Te6 nanowires and quasi-two-dimensional (2D) Mo6Te6 nanoribbons, which align in sixfold-oriented directions and form an array within 3 mm2 area on SiO2/Si substrate.

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Nano Research
Article number: 94907628

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Cite this article:
Huangfu Y, Lu P, Zhong J, et al. In situ synthesis of large-area sixfold-oriented Mo6Te6 nanowires networks through hydrogen-assisted annealing of 2H MoTe2 nanosheets. Nano Research, 2025, 18(8): 94907628. https://doi.org/10.26599/NR.2025.94907628
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Received: 24 March 2025
Revised: 10 May 2025
Accepted: 27 May 2025
Published: 03 July 2025
© The Author(s) 2025. Published by Tsinghua University Press.

This is an open access article under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0, https://creativecommons.org/licenses/by/4.0/).