In situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites
Anion exchange is a convenient postsynthetic transformation method to adjust the composition and bandgap of semiconductors. However, it is still a challenge to achieve the desired halogen-variable perovskites due to rapid and uncontrollable reaction and difficulty to synthesize directly. Herein, a f...
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sg-ntu-dr.10356-1599262022-07-06T00:59:54Z In situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites Zhang, Zhenhua Wei, Hao Manohari, Arumugam Gowri You, Daotong Wang, Ru Li, Zhuxin Liu, Wei Chen, Jinping Zhu, Yizhi Shi, Zengliang Cui, Qiannan Li, Shuzhou Xu, ChunXiang School of Materials Science and Engineering Engineering::Materials Anion Exchange Controllable Composition Anion exchange is a convenient postsynthetic transformation method to adjust the composition and bandgap of semiconductors. However, it is still a challenge to achieve the desired halogen-variable perovskites due to rapid and uncontrollable reaction and difficulty to synthesize directly. Herein, a facile and gentle vapor/solid anion exchange strategy is reported to control the composition in situ and quantitatively for adjusting the properties of MAPbI3−xBrx (x = 0 to 3, MA = CH3NH3) films continuously. By controlling the reaction time, the films have a tunable bandgap from 1.58 to 2.25 eV and a continuously blue-shifted photoluminescence peak from 771.1 to 540.5 nm. The regularly shifted X-ray diffraction peaks reveal the successive variation in composition and crystal lattice with anion exchange and all the MAPbI3−xBrx films have a pure phase. More importantly, a universal empirical equation for in situ and quantitative composition regulation is extracted, which is supported by theoretical analysis and simulation on the anion exchange process. The anion exchange strategy and empirical equation are appropriate not only for perovskite but also for other related materials. This work may be valuable for further applications such as in situ quantitative reversible composition-tunable perovskites, solar cells, white LEDs, and lasers. This work was supported by Natural Science Foundation of China (11734005, 61821002, and 62075041) and National Key R&D Program of China (2018YFA0209101 and 2017YFA0700500). 2022-07-06T00:59:54Z 2022-07-06T00:59:54Z 2021 Journal Article Zhang, Z., Wei, H., Manohari, A. G., You, D., Wang, R., Li, Z., Liu, W., Chen, J., Zhu, Y., Shi, Z., Cui, Q., Li, S. & Xu, C. (2021). In situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites. Advanced Optical Materials, 9(16), 2002186-. https://dx.doi.org/10.1002/adom.202002186 2195-1071 https://hdl.handle.net/10356/159926 10.1002/adom.202002186 2-s2.0-85106308214 16 9 2002186 en Advanced Optical Materials © 2021 Wiley-VCH GmbH. All rights reserved. |
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Engineering::Materials Anion Exchange Controllable Composition Zhang, Zhenhua Wei, Hao Manohari, Arumugam Gowri You, Daotong Wang, Ru Li, Zhuxin Liu, Wei Chen, Jinping Zhu, Yizhi Shi, Zengliang Cui, Qiannan Li, Shuzhou Xu, ChunXiang In situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites |
| description |
Anion exchange is a convenient postsynthetic transformation method to adjust the composition and bandgap of semiconductors. However, it is still a challenge to achieve the desired halogen-variable perovskites due to rapid and uncontrollable reaction and difficulty to synthesize directly. Herein, a facile and gentle vapor/solid anion exchange strategy is reported to control the composition in situ and quantitatively for adjusting the properties of MAPbI3−xBrx (x = 0 to 3, MA = CH3NH3) films continuously. By controlling the reaction time, the films have a tunable bandgap from 1.58 to 2.25 eV and a continuously blue-shifted photoluminescence peak from 771.1 to 540.5 nm. The regularly shifted X-ray diffraction peaks reveal the successive variation in composition and crystal lattice with anion exchange and all the MAPbI3−xBrx films have a pure phase. More importantly, a universal empirical equation for in situ and quantitative composition regulation is extracted, which is supported by theoretical analysis and simulation on the anion exchange process. The anion exchange strategy and empirical equation are appropriate not only for perovskite but also for other related materials. This work may be valuable for further applications such as in situ quantitative reversible composition-tunable perovskites, solar cells, white LEDs, and lasers. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Zhang, Zhenhua Wei, Hao Manohari, Arumugam Gowri You, Daotong Wang, Ru Li, Zhuxin Liu, Wei Chen, Jinping Zhu, Yizhi Shi, Zengliang Cui, Qiannan Li, Shuzhou Xu, ChunXiang |
| format |
Article |
| author |
Zhang, Zhenhua Wei, Hao Manohari, Arumugam Gowri You, Daotong Wang, Ru Li, Zhuxin Liu, Wei Chen, Jinping Zhu, Yizhi Shi, Zengliang Cui, Qiannan Li, Shuzhou Xu, ChunXiang |
| author_sort |
Zhang, Zhenhua |
| title |
In situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites |
| title_short |
In situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites |
| title_full |
In situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites |
| title_fullStr |
In situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites |
| title_full_unstemmed |
In situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites |
| title_sort |
in situ and quantitative vapor/solid anion exchange for composition regulation and optical properties of perovskites |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159926 |
| _version_ |
1738844828610854912 |