Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets
Polariton lasing is the coherent emission arising from a macroscopic polariton condensate first proposed in 1996. Over the past two decades, polariton lasing has been demonstrated in a few inorganic and organic semiconductors in both low and room temperatures. Polariton lasing in inorganic materials...
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sg-ntu-dr.10356-1408432023-02-28T19:26:40Z Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets Su, Rui Diederichs, Carole Wang, Jun Liew, Timothy Chi Hin Zhao, Jiaxin Liu, Sheng Xu, Weigao Chen, Zhanghai Xiong, Qihua School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences CNRS-UNS-NUS-NTU International Joint Research Unit Nanoelectronics Center of Excellence MajuLab Science::Physics Inorganic Perovskite Strong Coupling Polariton lasing is the coherent emission arising from a macroscopic polariton condensate first proposed in 1996. Over the past two decades, polariton lasing has been demonstrated in a few inorganic and organic semiconductors in both low and room temperatures. Polariton lasing in inorganic materials significantly relies on sophisticated epitaxial growth of crystalline gain medium layers sandwiched by two distributed Bragg reflectors in which combating the built-in strain and mismatched thermal properties is nontrivial. On the other hand, organic active media usually suffer from large threshold density and weak nonlinearity due to the Frenkel exciton nature. Further development of polariton lasing toward technologically significant applications demand more accessible materials, ease of device fabrication, and broadly tunable emission at room temperature. Herein, we report the experimental realization of room-temperature polariton lasing based on an epitaxy-free all-inorganic cesium lead chloride perovskite nanoplatelet microcavity. Polariton lasing is unambiguously evidenced by a superlinear power dependence, macroscopic ground-state occupation, blueshift of the ground-state emission, narrowing of the line width and the buildup of long-range spatial coherence. Our work suggests considerable promise of lead halide perovskites toward large-area, low-cost, high-performance room-temperature polariton devices and coherent light sources extending from the ultraviolet to near-infrared range. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) Accepted version 2020-06-02T07:16:34Z 2020-06-02T07:16:34Z 2017 Journal Article Su, R., Diederichs, C., Wang, J., Liew, T. C. H., Zhao, J., Liu, S., . . . Xiong, Q. (2017). Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets. Nano Letters, 17(6), 3982-3988. doi:10.1021/acs.nanolett.7b01956 1530-6984 https://hdl.handle.net/10356/140843 10.1021/acs.nanolett.7b01956 28541055 2-s2.0-85020775294 6 17 3982 3988 en Nano Letters This document is the Accepted Manuscript version of a Published Work that appeared in final form in Nano Letters, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acs.nanolett.7b01956 application/pdf |
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Science::Physics Inorganic Perovskite Strong Coupling Su, Rui Diederichs, Carole Wang, Jun Liew, Timothy Chi Hin Zhao, Jiaxin Liu, Sheng Xu, Weigao Chen, Zhanghai Xiong, Qihua Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets |
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Polariton lasing is the coherent emission arising from a macroscopic polariton condensate first proposed in 1996. Over the past two decades, polariton lasing has been demonstrated in a few inorganic and organic semiconductors in both low and room temperatures. Polariton lasing in inorganic materials significantly relies on sophisticated epitaxial growth of crystalline gain medium layers sandwiched by two distributed Bragg reflectors in which combating the built-in strain and mismatched thermal properties is nontrivial. On the other hand, organic active media usually suffer from large threshold density and weak nonlinearity due to the Frenkel exciton nature. Further development of polariton lasing toward technologically significant applications demand more accessible materials, ease of device fabrication, and broadly tunable emission at room temperature. Herein, we report the experimental realization of room-temperature polariton lasing based on an epitaxy-free all-inorganic cesium lead chloride perovskite nanoplatelet microcavity. Polariton lasing is unambiguously evidenced by a superlinear power dependence, macroscopic ground-state occupation, blueshift of the ground-state emission, narrowing of the line width and the buildup of long-range spatial coherence. Our work suggests considerable promise of lead halide perovskites toward large-area, low-cost, high-performance room-temperature polariton devices and coherent light sources extending from the ultraviolet to near-infrared range. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Su, Rui Diederichs, Carole Wang, Jun Liew, Timothy Chi Hin Zhao, Jiaxin Liu, Sheng Xu, Weigao Chen, Zhanghai Xiong, Qihua |
| format |
Article |
| author |
Su, Rui Diederichs, Carole Wang, Jun Liew, Timothy Chi Hin Zhao, Jiaxin Liu, Sheng Xu, Weigao Chen, Zhanghai Xiong, Qihua |
| author_sort |
Su, Rui |
| title |
Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets |
| title_short |
Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets |
| title_full |
Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets |
| title_fullStr |
Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets |
| title_full_unstemmed |
Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets |
| title_sort |
room-temperature polariton lasing in all-inorganic perovskite nanoplatelets |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/140843 |
| _version_ |
1759856453702647808 |