Identifying, Resolving, and Quantifying Anisotropy in ReS 2 Nanomechanical Resonators

As an emerging two-dimensional semiconductor, rhenium disulfide (ReS ) is renowned for its strong in-plane anisotropy in electrical, optical, and thermal properties. In contrast to the electrical, optical, optoelectrical, and thermal anisotropies that are extensively studied in ReS , experimental ch...

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Published in:Small (Weinheim an der Bergstrasse, Germany) Germany), 2023-06, Vol.19 (24), p.e2300631
Main Authors: Xu, Bo, Zhu, Jiankai, Xiao, Fei, Jiao, Chenyin, Liang, Yachun, Wen, Ting, Wu, Song, Zhang, Zejuan, Lin, Lin, Pei, Shenghai, Jia, Hao, Chen, Ying, Ren, Ziming, Wei, Xueyong, Huang, Wen, Xia, Juan, Wang, Zenghui
Format: Article
Language:English
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Summary:As an emerging two-dimensional semiconductor, rhenium disulfide (ReS ) is renowned for its strong in-plane anisotropy in electrical, optical, and thermal properties. In contrast to the electrical, optical, optoelectrical, and thermal anisotropies that are extensively studied in ReS , experimental characterization of mechanical properties has largely remained elusive. Here, it is demonstrated that the dynamic response in ReS nanomechanical resonators can be leveraged to unambiguously resolve such disputes. Using anisotropic modal analysis, the parameter space for ReS resonators in which mechanical anisotropy is best manifested in resonant responses is determined. By measuring their dynamic response in both spectral and spatial domains using resonant nanomechanical spectromicroscopy, it is clearly shown that ReS crystal is mechanically anisotropic. Through fitting numerical models to experimental results, it is quantitatively determined that the in-plane Young's moduli are 127 and 201 GPa along the two orthogonal mechanical axes. In combination with polarized reflectance measurements, it is shown that the mechanical soft axis aligns with the Re-Re chain in the ReS crystal. These results demonstrate that dynamic responses in nanomechanical devices can offer important insights into intrinsic properties in 2D crystals and provide design guidelines for future nanodevices with anisotropic resonant responses.
ISSN:1613-6810
1613-6829
DOI:10.1002/smll.202300631