Strong piezoelectricity in 3R-MoS₂ flakes
Distinct from conventional 2H-MoS2, recently synthesized 3R-MoS2 exhibits a noncentrosymmetric atomic structure of the trigonal “building blocks” and, thus, remarkable piezoelectric characteristics of ultrathin 3R-MoS2 flakes are predicated theoretically. This paper reveals, for the first time, very...
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sg-ntu-dr.10356-1632002022-11-28T08:43:40Z Strong piezoelectricity in 3R-MoS₂ flakes Hallil, Hamida Cai, Weifan Zhang, Kang Yu, Peng Liu, Sheng Xu, Ran Zhu, Chao Xiong, Qihua Liu, Zheng Zhang, Qing School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences School of Materials Science and Engineering CNRS International NTU THALES Research Alliances Research Techno Plaza Centre for Micro-/Nano-electronics (NOVITAS) Engineering::Materials Piezoelectric Coefficients Piezoelectric Devices Distinct from conventional 2H-MoS2, recently synthesized 3R-MoS2 exhibits a noncentrosymmetric atomic structure of the trigonal “building blocks” and, thus, remarkable piezoelectric characteristics of ultrathin 3R-MoS2 flakes are predicated theoretically. This paper reveals, for the first time, very high piezoelectricity in 3R-MoS2 flakes experimentally. Through applying mechanical stress to a 48 nm 3R-MoS2 flake, a high output power density of 65 mW m-2 is obtained and is at least one order larger than those from the corresponding monolayer MoS2 flake. With out-of-plane lateral piezoresponse force microscopy technique, the two piezoelectric coefficients d33 and d13 are analyzed to be ≈0.9 and ≈1.6 pm V-1, respectively. These piezoelectric coefficients are not apparently dependent on the flake thickness. The findings suggest that 3R-MoS2 is of excellent piezoelectric properties and it can be an excellent material for novel piezoelectric devices. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) The authors are grateful for the financial supports: of the Singaporean grants from: MOE Tier 2 grant (MOE 2017-T2-2-136), A*STAR AME IRG Grant SERC A1983c0027, Singapore and French National Research Agency under Project ANR-13-BS03-0010 and the “Investments for the future” Programme IdEx Bordeaux, under Grant ANR-10-IDEX-03-02. 2022-11-28T08:43:40Z 2022-11-28T08:43:40Z 2022 Journal Article Hallil, H., Cai, W., Zhang, K., Yu, P., Liu, S., Xu, R., Zhu, C., Xiong, Q., Liu, Z. & Zhang, Q. (2022). Strong piezoelectricity in 3R-MoS₂ flakes. Advanced Electronic Materials, 8(7), 2101131-. https://dx.doi.org/10.1002/aelm.202101131 2199-160X https://hdl.handle.net/10356/163200 10.1002/aelm.202101131 2-s2.0-85124763432 7 8 2101131 en MOE 2017-T2-2-136 A1983c0027 Advanced Electronic Materials © 2022 Wiley-VCH GmbH. All rights reserved. |
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Engineering::Materials Piezoelectric Coefficients Piezoelectric Devices Hallil, Hamida Cai, Weifan Zhang, Kang Yu, Peng Liu, Sheng Xu, Ran Zhu, Chao Xiong, Qihua Liu, Zheng Zhang, Qing Strong piezoelectricity in 3R-MoS₂ flakes |
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Distinct from conventional 2H-MoS2, recently synthesized 3R-MoS2 exhibits a noncentrosymmetric atomic structure of the trigonal “building blocks” and, thus, remarkable piezoelectric characteristics of ultrathin 3R-MoS2 flakes are predicated theoretically. This paper reveals, for the first time, very high piezoelectricity in 3R-MoS2 flakes experimentally. Through applying mechanical stress to a 48 nm 3R-MoS2 flake, a high output power density of 65 mW m-2 is obtained and is at least one order larger than those from the corresponding monolayer MoS2 flake. With out-of-plane lateral piezoresponse force microscopy technique, the two piezoelectric coefficients d33 and d13 are analyzed to be ≈0.9 and ≈1.6 pm V-1, respectively. These piezoelectric coefficients are not apparently dependent on the flake thickness. The findings suggest that 3R-MoS2 is of excellent piezoelectric properties and it can be an excellent material for novel piezoelectric devices. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Hallil, Hamida Cai, Weifan Zhang, Kang Yu, Peng Liu, Sheng Xu, Ran Zhu, Chao Xiong, Qihua Liu, Zheng Zhang, Qing |
| format |
Article |
| author |
Hallil, Hamida Cai, Weifan Zhang, Kang Yu, Peng Liu, Sheng Xu, Ran Zhu, Chao Xiong, Qihua Liu, Zheng Zhang, Qing |
| author_sort |
Hallil, Hamida |
| title |
Strong piezoelectricity in 3R-MoS₂ flakes |
| title_short |
Strong piezoelectricity in 3R-MoS₂ flakes |
| title_full |
Strong piezoelectricity in 3R-MoS₂ flakes |
| title_fullStr |
Strong piezoelectricity in 3R-MoS₂ flakes |
| title_full_unstemmed |
Strong piezoelectricity in 3R-MoS₂ flakes |
| title_sort |
strong piezoelectricity in 3r-mos₂ flakes |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163200 |
| _version_ |
1751548596685111296 |