Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation
The hybrid nature and soft lattice of organolead halide perovskites render their structural changes and optical properties susceptible to external driving forces such as temperature and pressure, remarkably different from conventional semiconductors. Here, we investigate the pressure-induced optical...
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sg-ntu-dr.10356-1036622023-02-28T19:44:47Z Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation Liu, Sheng Sun, Shishuai Gan, Chee Kwan Fang, Yanan Xing, Jun Li, Hongguo Huang, Wei Xiong, Qihua Del Águila, Andrés Granados Do, Thi Thu Ha White, Timothy John School of Electrical and Electronic Engineering School of Materials Science & Engineering School of Physical and Mathematical Sciences NOVITAS, Nanoelectronics Center of Excellence Emission Perovskite Science::Physics The hybrid nature and soft lattice of organolead halide perovskites render their structural changes and optical properties susceptible to external driving forces such as temperature and pressure, remarkably different from conventional semiconductors. Here, we investigate the pressure-induced optical response of a typical two-dimensional perovskite crystal, phenylethylamine lead iodide. At a moderate pressure within 3.5 GPa, its photoluminescence red-shifts continuously, exhibiting an ultrabroad energy tunability range up to 320 meV in the visible spectrum, with quantum yield remaining nearly constant. First-principles calculations suggest that an out-of-plane quasi-uniaxial compression occurs under a hydrostatic pressure, while the energy is absorbed by the reversible and elastic tilting of the benzene rings within the long-chain ligands. This anisotropic structural deformation effectively modulates the quantum confinement effect by 250 meV via barrier height lowering. The broad tunability within a relatively low pressure range will expand optoelectronic applications to a new paradigm with pressure as a tuning knob. ASTAR (Agency for Sci., Tech. and Research, S’pore) MOE (Min. of Education, S’pore) Published version 2019-09-24T08:10:40Z 2019-12-06T21:17:18Z 2019-09-24T08:10:40Z 2019-12-06T21:17:18Z 2019 Journal Article Liu, S., Sun, S., Gan, C. K., Del Águila, A. G., Fang, Y., Xing, J., . . . Xiong, Q. (2019). Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation. Science Advances, 5(7), eaav9445-. doi:10.1126/sciadv.aav9445 https://hdl.handle.net/10356/103662 http://hdl.handle.net/10220/49990 10.1126/sciadv.aav9445 en Science Advances © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). 10 p. application/pdf |
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Emission Perovskite Science::Physics |
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Emission Perovskite Science::Physics Liu, Sheng Sun, Shishuai Gan, Chee Kwan Fang, Yanan Xing, Jun Li, Hongguo Huang, Wei Xiong, Qihua Del Águila, Andrés Granados Do, Thi Thu Ha White, Timothy John Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation |
| description |
The hybrid nature and soft lattice of organolead halide perovskites render their structural changes and optical properties susceptible to external driving forces such as temperature and pressure, remarkably different from conventional semiconductors. Here, we investigate the pressure-induced optical response of a typical two-dimensional perovskite crystal, phenylethylamine lead iodide. At a moderate pressure within 3.5 GPa, its photoluminescence red-shifts continuously, exhibiting an ultrabroad energy tunability range up to 320 meV in the visible spectrum, with quantum yield remaining nearly constant. First-principles calculations suggest that an out-of-plane quasi-uniaxial compression occurs under a hydrostatic pressure, while the energy is absorbed by the reversible and elastic tilting of the benzene rings within the long-chain ligands. This anisotropic structural deformation effectively modulates the quantum confinement effect by 250 meV via barrier height lowering. The broad tunability within a relatively low pressure range will expand optoelectronic applications to a new paradigm with pressure as a tuning knob. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Liu, Sheng Sun, Shishuai Gan, Chee Kwan Fang, Yanan Xing, Jun Li, Hongguo Huang, Wei Xiong, Qihua Del Águila, Andrés Granados Do, Thi Thu Ha White, Timothy John |
| format |
Article |
| author |
Liu, Sheng Sun, Shishuai Gan, Chee Kwan Fang, Yanan Xing, Jun Li, Hongguo Huang, Wei Xiong, Qihua Del Águila, Andrés Granados Do, Thi Thu Ha White, Timothy John |
| author_sort |
Liu, Sheng |
| title |
Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation |
| title_short |
Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation |
| title_full |
Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation |
| title_fullStr |
Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation |
| title_full_unstemmed |
Manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation |
| title_sort |
manipulating efficient light emission in two-dimensional perovskite crystals by pressure-induced anisotropic deformation |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/103662 http://hdl.handle.net/10220/49990 |
| _version_ |
1759854057629941760 |