Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides
Exciton/trion-involved optoelectronic properties have attracted exponential amount of attention for various applications ranging from optoelectronics, valleytronics to electronics. Herein, we report a new chemical (MXene) doping strategy to modulate the negative trion and neutral exciton for achievi...
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sg-ntu-dr.10356-1478532021-09-14T06:05:01Z Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides Tao, Ye Koh, See Wee Yu, Xuechao Wang, Chongwu Liang, Houkun Zhang, Ying Li, Hong Wang, Qi Jie School of Electrical and Electronic Engineering School of Mechanical and Aerospace Engineering Singapore Institute of Manufacturing Technology Centre for OptoElectronics and Biophotonics (COEB) Engineering::Electrical and electronic engineering::Optics, optoelectronics, photonics Excitons Tungsten Compounds Exciton/trion-involved optoelectronic properties have attracted exponential amount of attention for various applications ranging from optoelectronics, valleytronics to electronics. Herein, we report a new chemical (MXene) doping strategy to modulate the negative trion and neutral exciton for achieving high photoluminescence yield of atomically thin transition metal dichalcogenides, enabled by the regulation of carrier densities to promote electron-bound trion-to-exciton transition via charge transfer from TMDCs to MXene. As a proof of concept, the MXene nano-flake-doped tungsten disulfide is demonstrated to obtain an enhanced PL efficiency of up to ∼five folds, which obviously exceeds the reported efficiency upon electrical and/or plasma doping strategies. The PL enhancement degree can also be modulated by tuning the corresponding surface functional groups of MXene nano-flakes, reflecting that the electron-withdrawing functional groups play a vital role in this charge transfer process. These findings offer promising clues to control the optoelectronic properties of TMDCs and expand the scope of the application of MXene nano-flakes, suggesting a possibility to construct a new heterostructure junction based on MXenes and TMDCs. National Research Foundation (NRF) Published version This work is supported by SERC (Grant No. 1426500050) from the Agency for Science, Technology and Research (A*STAR), Singapore National Research Foundation, Competitive Research Program (Grant No. NRF-CRP18-2017-02), Singapore Ministry of Education Tier 2 Program (Grant No. MOE2016-T2- 1-128) and National Natural Science Foundation of China (Grant No. 61704082) and Natural Science Foundation of Jiangsu Province (Grant No. BK20170851). H. Li would like to thank the support from Nanyang Technological University under NAP award (M408050000) and Singapore Ministry of Education Tier 1 program (2018-T1-001-051). 2021-04-16T02:34:31Z 2021-04-16T02:34:31Z 2019 Journal Article Tao, Y., Koh, S. W., Yu, X., Wang, C., Liang, H., Zhang, Y., Li, H. & Wang, Q. J. (2019). Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides. Nanoscale Advances, 1(12), 4783-4789. https://dx.doi.org/10.1039/c9na00395a 2516-0230 https://hdl.handle.net/10356/147853 10.1039/c9na00395a 2-s2.0-85076046783 12 1 4783 4789 en 1426500050 NRF-CRP18-2017-02 MOE2016-T2- 1-128 61704082 BK20170851 M408050000 2018-T1-001-051 Nanoscale Advances © 2019 The Royal Society of Chemistry. This article is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported Licence. application/pdf |
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Engineering::Electrical and electronic engineering::Optics, optoelectronics, photonics Excitons Tungsten Compounds |
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Engineering::Electrical and electronic engineering::Optics, optoelectronics, photonics Excitons Tungsten Compounds Tao, Ye Koh, See Wee Yu, Xuechao Wang, Chongwu Liang, Houkun Zhang, Ying Li, Hong Wang, Qi Jie Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides |
| description |
Exciton/trion-involved optoelectronic properties have attracted exponential amount of attention for various applications ranging from optoelectronics, valleytronics to electronics. Herein, we report a new chemical (MXene) doping strategy to modulate the negative trion and neutral exciton for achieving high photoluminescence yield of atomically thin transition metal dichalcogenides, enabled by the regulation of carrier densities to promote electron-bound trion-to-exciton transition via charge transfer from TMDCs to MXene. As a proof of concept, the MXene nano-flake-doped tungsten disulfide is demonstrated to obtain an enhanced PL efficiency of up to ∼five folds, which obviously exceeds the reported efficiency upon electrical and/or plasma doping strategies. The PL enhancement degree can also be modulated by tuning the corresponding surface functional groups of MXene nano-flakes, reflecting that the electron-withdrawing functional groups play a vital role in this charge transfer process. These findings offer promising clues to control the optoelectronic properties of TMDCs and expand the scope of the application of MXene nano-flakes, suggesting a possibility to construct a new heterostructure junction based on MXenes and TMDCs. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Tao, Ye Koh, See Wee Yu, Xuechao Wang, Chongwu Liang, Houkun Zhang, Ying Li, Hong Wang, Qi Jie |
| format |
Article |
| author |
Tao, Ye Koh, See Wee Yu, Xuechao Wang, Chongwu Liang, Houkun Zhang, Ying Li, Hong Wang, Qi Jie |
| author_sort |
Tao, Ye |
| title |
Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides |
| title_short |
Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides |
| title_full |
Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides |
| title_fullStr |
Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides |
| title_full_unstemmed |
Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides |
| title_sort |
surface group-modified mxene nano-flake doping of monolayer tungsten disulfides |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/147853 |
| _version_ |
1712300641344290816 |