Organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications
2D Bi2O2Se has recently attracted widespread research interest due to its high electron mobility and good air stability with tunable bandgap. However, the direct and controllable growth of large-size, high-quality ultrathin Bi2O2Se with tunable electronic properties remains a great challenge. Here,...
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sg-ntu-dr.10356-1624912022-10-25T05:46:10Z Organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications Dang, Le-Yang Liu, Mingqiang Wang, Gui-Gen Zhao, Da-Qiang Han, Jie-Cai Zhu, Jia-Qi Liu, Zheng School of Materials Science and Engineering Engineering::Materials Field-Effect Transistors Photodetectors 2D Bi2O2Se has recently attracted widespread research interest due to its high electron mobility and good air stability with tunable bandgap. However, the direct and controllable growth of large-size, high-quality ultrathin Bi2O2Se with tunable electronic properties remains a great challenge. Here, an organic ion template-guided solution growth method, is developed using water as a solvent to efficiently obtain high-quality 2D Bi2O2Se. Significantly, the thicknesses and morphologies of 2D Bi2OxSe with various oxygen deficiencies; are also achieved. Optical spectroscopic results indicate that oxygen defects can dramatically tune the electronic properties of Bi2O2Se, such as work function, band gap, and energy-band positions. As a result, the optimized Bi2O2Se devices exhibit a high photoresponsivity of 842.91 A W−1, photo-detectivity of 8.18 × 1012 Jones under 532 nm laser, and electron mobility of 334.7 cm2 V−1 s−1. This work proposes a new green solution method to synthesize large-sized, high-quality Bi2O2Se with tunable electronic structures that can be extended for various applications and provides a new possibility of transfer-free large-scale device manufacturing. National Research Foundation (NRF) The work was supported by Fund of National Key Laboratory of Science and Technology on Advanced Composites in Special Environments (Grant No. 6142905192507), Shenzhen Science and Technology Plan Supported Project (Grant Nos. GXWD20201230155427003-20200821232246001, JCYJ20170413105844696). Z.L. acknowledges the financial support from Singapore National Research Foundation Competitive Research Program (Grant No. NRF-CRP22-2019-0007). 2022-10-25T05:46:10Z 2022-10-25T05:46:10Z 2022 Journal Article Dang, L., Liu, M., Wang, G., Zhao, D., Han, J., Zhu, J. & Liu, Z. (2022). Organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications. Advanced Functional Materials, 32(31), 2201020-. https://dx.doi.org/10.1002/adfm.202201020 1616-301X https://hdl.handle.net/10356/162491 10.1002/adfm.202201020 2-s2.0-85129815108 31 32 2201020 en NRF-CRP22-2019- 0007 Advanced Functional Materials © 2022 Wiley-VCH GmbH. All rights reserved. |
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Engineering::Materials Field-Effect Transistors Photodetectors Dang, Le-Yang Liu, Mingqiang Wang, Gui-Gen Zhao, Da-Qiang Han, Jie-Cai Zhu, Jia-Qi Liu, Zheng Organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications |
| description |
2D Bi2O2Se has recently attracted widespread research interest due to its high electron mobility and good air stability with tunable bandgap. However, the direct and controllable growth of large-size, high-quality ultrathin Bi2O2Se with tunable electronic properties remains a great challenge. Here, an organic ion template-guided solution growth method, is developed using water as a solvent to efficiently obtain high-quality 2D Bi2O2Se. Significantly, the thicknesses and morphologies of 2D Bi2OxSe with various oxygen deficiencies; are also achieved. Optical spectroscopic results indicate that oxygen defects can dramatically tune the electronic properties of Bi2O2Se, such as work function, band gap, and energy-band positions. As a result, the optimized Bi2O2Se devices exhibit a high photoresponsivity of 842.91 A W−1, photo-detectivity of 8.18 × 1012 Jones under 532 nm laser, and electron mobility of 334.7 cm2 V−1 s−1. This work proposes a new green solution method to synthesize large-sized, high-quality Bi2O2Se with tunable electronic structures that can be extended for various applications and provides a new possibility of transfer-free large-scale device manufacturing. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Dang, Le-Yang Liu, Mingqiang Wang, Gui-Gen Zhao, Da-Qiang Han, Jie-Cai Zhu, Jia-Qi Liu, Zheng |
| format |
Article |
| author |
Dang, Le-Yang Liu, Mingqiang Wang, Gui-Gen Zhao, Da-Qiang Han, Jie-Cai Zhu, Jia-Qi Liu, Zheng |
| author_sort |
Dang, Le-Yang |
| title |
Organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications |
| title_short |
Organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications |
| title_full |
Organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications |
| title_fullStr |
Organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications |
| title_full_unstemmed |
Organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications |
| title_sort |
organic ion template-guided solution growth of ultrathin bismuth oxyselenide with tunable electronic properties for optoelectronic applications |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162491 |
| _version_ |
1749179191677419520 |