Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers
Semiconductor nanowires have received considerable attention in the past decade driven by both unprecedented physics derived from the quantum size effect and strong isotropy and advanced applications as potential building blocks for nanoscale electronics and optoelectronic devices. Recently, organic...
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sg-ntu-dr.10356-1403682023-02-28T19:27:37Z Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers Xing, Jun Liu, Xin Feng Zhang, Qing Ha, Son Tung Yuan, Yan Wen Shen, Chao Sum, Tze Chien Xiong, Qihua School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences Nanoelectronics Centre of Excellence Energy Research Institute @ NTU (ERI@N) Science::Physics Organic-inorganic Perovskites Nanowire Semiconductor nanowires have received considerable attention in the past decade driven by both unprecedented physics derived from the quantum size effect and strong isotropy and advanced applications as potential building blocks for nanoscale electronics and optoelectronic devices. Recently, organic–inorganic hybrid perovskites have been shown to exhibit high optical absorption coefficient, optimal direct band gap, and long electron/hole diffusion lengths, leading to high-performance photovoltaic devices. Herein, we present the vapor phase synthesis free-standing CH3NH3PbI3, CH3NH3PbBr3, and CH3NH3PbIxCl3–x perovskite nanowires with high crystallinity. These rectangular cross-sectional perovskite nanowires have good optical properties and long electron hole diffusion length, which ensure adequate gain and efficient optical feedback. Indeed, we have demonstrated optical-pumped room-temperature CH3NH3PbI3 nanowire lasers with near-infrared wavelength of 777 nm, low threshold of 11 μJ/cm2, and a quality factor as high as 405. Our research advocates the promise of optoelectronic devices based on organic–inorganic perovskite nanowires. NRF (Natl Research Foundation, S’pore) ASTAR (Agency for Sci., Tech. and Research, S’pore) MOE (Min. of Education, S’pore) Accepted version 2020-05-28T05:50:10Z 2020-05-28T05:50:10Z 2015 Journal Article Xing, J., Liu, X. F., Zhang, Q., Ha, S. T., Yuan, Y. W., Shen, C., . . . Xiong, Q. (2015). Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers. Nano Letters, 15(7), 4571-4577. doi:10.1021/acs.nanolett.5b01166 1530-6984 https://hdl.handle.net/10356/140368 10.1021/acs.nanolett.5b01166 26043362 2-s2.0-84936797551 7 15 4571 4577 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.5b01166 application/pdf |
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Science::Physics Organic-inorganic Perovskites Nanowire Xing, Jun Liu, Xin Feng Zhang, Qing Ha, Son Tung Yuan, Yan Wen Shen, Chao Sum, Tze Chien Xiong, Qihua Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers |
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Semiconductor nanowires have received considerable attention in the past decade driven by both unprecedented physics derived from the quantum size effect and strong isotropy and advanced applications as potential building blocks for nanoscale electronics and optoelectronic devices. Recently, organic–inorganic hybrid perovskites have been shown to exhibit high optical absorption coefficient, optimal direct band gap, and long electron/hole diffusion lengths, leading to high-performance photovoltaic devices. Herein, we present the vapor phase synthesis free-standing CH3NH3PbI3, CH3NH3PbBr3, and CH3NH3PbIxCl3–x perovskite nanowires with high crystallinity. These rectangular cross-sectional perovskite nanowires have good optical properties and long electron hole diffusion length, which ensure adequate gain and efficient optical feedback. Indeed, we have demonstrated optical-pumped room-temperature CH3NH3PbI3 nanowire lasers with near-infrared wavelength of 777 nm, low threshold of 11 μJ/cm2, and a quality factor as high as 405. Our research advocates the promise of optoelectronic devices based on organic–inorganic perovskite nanowires. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Xing, Jun Liu, Xin Feng Zhang, Qing Ha, Son Tung Yuan, Yan Wen Shen, Chao Sum, Tze Chien Xiong, Qihua |
| format |
Article |
| author |
Xing, Jun Liu, Xin Feng Zhang, Qing Ha, Son Tung Yuan, Yan Wen Shen, Chao Sum, Tze Chien Xiong, Qihua |
| author_sort |
Xing, Jun |
| title |
Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers |
| title_short |
Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers |
| title_full |
Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers |
| title_fullStr |
Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers |
| title_full_unstemmed |
Vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers |
| title_sort |
vapor phase synthesis of organometal halide perovskite nanowires for tunable room-temperature nanolasers |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/140368 |
| _version_ |
1759857818832207872 |