Observation of phonon cascades in Cu-doped colloidal quantum wells
Electronic doping has endowed colloidal quantum wells (CQWs) with unique optical and electronic properties, holding great potential for future optoelectronic device concepts. Unfortunately, how photogenerated hot carriers interact with phonons in these doped CQWs still remains an open question. Here...
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sg-ntu-dr.10356-1657792023-04-14T15:40:50Z Observation of phonon cascades in Cu-doped colloidal quantum wells Yu, Junhong Hu, Sujuan Gao, Huayu Delikanli, Savas Liu, Baiquan Jasieniak, Jacek J. Sharma, Manoj Demir, Hilmi Volkan School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering::Optics, optoelectronics, photonics Colloidal Quantum Wells Copper Doping Electronic doping has endowed colloidal quantum wells (CQWs) with unique optical and electronic properties, holding great potential for future optoelectronic device concepts. Unfortunately, how photogenerated hot carriers interact with phonons in these doped CQWs still remains an open question. Here, through investigating the emission properties, we have observed an efficient phonon cascade process (i.e., up to 27 longitudinal optical phonon replicas are revealed in the broad Cu emission band at room temperature) and identified a giant Huang-Rhys factor (S ≈ 12.4, more than 1 order of magnitude larger than reported values of other inorganic semiconductor nanomaterials) in Cu-doped CQWs. We argue that such an ultrastrong electron-phonon coupling in Cu-doped CQWs is due to the dopant-induced lattice distortion and the dopant-enhanced density of states. These findings break the widely accepted consensus that electron-phonon coupling is typically weak in quantum-confined systems, which are crucial for optoelectronic applications of doped electronic nanomaterials. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Submitted/Accepted version B.L. acknowledges financial support from the National Natural Science Foundation of China under Grant 62104265, the Science and Technology Program of Guangdong Province under Grant 2021A0505110009, and the Innovation and Technology Fund under Grant GHP/006/20GD. M.S. and J.J.J. acknowledge funding through the Australian Research Council Center of Excellence in Exciton Science (Grant No. CE170100026). H.V.D. acknowledges financial support in part from the Singapore Agency for Science, Technology and Research (A*STAR) MTC program under grant number M21J9b0085, Ministry of Education, Singapore, under its Academic Research Fund Tier 1 (MOE-RG62/20) and in part from TUBITAK 119N343, 20AG001, 121N395, and 121C266. H.V.D. also acknowledges support from TUBA and TUBITAK 2247-A National Leader Researchers Program (121C266). 2023-04-13T05:31:23Z 2023-04-13T05:31:23Z 2022 Journal Article Yu, J., Hu, S., Gao, H., Delikanli, S., Liu, B., Jasieniak, J. J., Sharma, M. & Demir, H. V. (2022). Observation of phonon cascades in Cu-doped colloidal quantum wells. Nano Letters, 22(24), 10224-10231. https://dx.doi.org/10.1021/acs.nanolett.2c03427 1530-6984 https://hdl.handle.net/10356/165779 10.1021/acs.nanolett.2c03427 36326236 2-s2.0-85141726647 24 22 10224 10231 en M21J9b0085 MOE-RG62/20 Nano Letters This document is the Accepted Manuscript version of a Published Work that appeared in final form in Nano Letters, copyright © 2022 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.2c03427. application/pdf |
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Engineering::Electrical and electronic engineering::Optics, optoelectronics, photonics Colloidal Quantum Wells Copper Doping |
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Engineering::Electrical and electronic engineering::Optics, optoelectronics, photonics Colloidal Quantum Wells Copper Doping Yu, Junhong Hu, Sujuan Gao, Huayu Delikanli, Savas Liu, Baiquan Jasieniak, Jacek J. Sharma, Manoj Demir, Hilmi Volkan Observation of phonon cascades in Cu-doped colloidal quantum wells |
| description |
Electronic doping has endowed colloidal quantum wells (CQWs) with unique optical and electronic properties, holding great potential for future optoelectronic device concepts. Unfortunately, how photogenerated hot carriers interact with phonons in these doped CQWs still remains an open question. Here, through investigating the emission properties, we have observed an efficient phonon cascade process (i.e., up to 27 longitudinal optical phonon replicas are revealed in the broad Cu emission band at room temperature) and identified a giant Huang-Rhys factor (S ≈ 12.4, more than 1 order of magnitude larger than reported values of other inorganic semiconductor nanomaterials) in Cu-doped CQWs. We argue that such an ultrastrong electron-phonon coupling in Cu-doped CQWs is due to the dopant-induced lattice distortion and the dopant-enhanced density of states. These findings break the widely accepted consensus that electron-phonon coupling is typically weak in quantum-confined systems, which are crucial for optoelectronic applications of doped electronic nanomaterials. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Yu, Junhong Hu, Sujuan Gao, Huayu Delikanli, Savas Liu, Baiquan Jasieniak, Jacek J. Sharma, Manoj Demir, Hilmi Volkan |
| format |
Article |
| author |
Yu, Junhong Hu, Sujuan Gao, Huayu Delikanli, Savas Liu, Baiquan Jasieniak, Jacek J. Sharma, Manoj Demir, Hilmi Volkan |
| author_sort |
Yu, Junhong |
| title |
Observation of phonon cascades in Cu-doped colloidal quantum wells |
| title_short |
Observation of phonon cascades in Cu-doped colloidal quantum wells |
| title_full |
Observation of phonon cascades in Cu-doped colloidal quantum wells |
| title_fullStr |
Observation of phonon cascades in Cu-doped colloidal quantum wells |
| title_full_unstemmed |
Observation of phonon cascades in Cu-doped colloidal quantum wells |
| title_sort |
observation of phonon cascades in cu-doped colloidal quantum wells |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/165779 |
| _version_ |
1764208013862764544 |