Strong plasmon-Wannier Mott exciton interaction with high aspect ratio colloidal quantum wells
The strong interaction between excitons and plasmons, manifested as Rabi splitting of the eigen energies, is of fundamental interest for manipulating photons in nanoscale devices. Thanks to their enhanced photostability and minimal inhomogeneous broadening compared with organic molecules, inorganic...
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sg-ntu-dr.10356-1506062021-06-03T09:09:02Z Strong plasmon-Wannier Mott exciton interaction with high aspect ratio colloidal quantum wells Yu, Junhong Hou, Songyan Sharma, Manoj Tobing, Landobasa Y. M. Song, Zhigang Delikanli, Savas Hettiarachchi, Chathuranga Zhang, Daohua Fan, Weijun Muhammad Danang Birowosuto Wang, Hong Demir, Hilmi Volkan Dang, Cuong School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences LUMINOUS! Centre of Excellence for Semiconductor Lighting & Displays Centre for OptoElectronics and Biophotonics (OPTIMUS) Science::Physics Colloidal Quantum Wells Exciton-plasmon Interaction The strong interaction between excitons and plasmons, manifested as Rabi splitting of the eigen energies, is of fundamental interest for manipulating photons in nanoscale devices. Thanks to their enhanced photostability and minimal inhomogeneous broadening compared with organic molecules, inorganic emitters are preferred for practical applications. However, a relatively small Rabi splitting with inorganic materials severely hinders the active plasmonic operation, considering its weak optical nonlinearity and slow energy interexchange. Here, we circumvent this problem in a hybrid system consisting of high aspect ratio colloidal quantum wells (HARCQWs) and an individual plasmonic silver nanocube. By taking advantages of a highly in-plane oriented exciton, enhanced exciton binding energy, and non-stacking properties in HARCQWs, we demonstrate an unprecedented giant Rabi splitting energy up to 400 meV under ambient conditions, which is observed not only in scattering but also in photoluminescent spectra. These findings are a key step toward achieving inorganic plasmonic devices. Ministry of Education (MOE) National Research Foundation (NRF) Accepted version 2021-06-03T09:09:02Z 2021-06-03T09:09:02Z 2020 Journal Article Yu, J., Hou, S., Sharma, M., Tobing, L. Y. M., Song, Z., Delikanli, S., Hettiarachchi, C., Zhang, D., Fan, W., Muhammad Danang Birowosuto, Wang, H., Demir, H. V. & Dang, C. (2020). Strong plasmon-Wannier Mott exciton interaction with high aspect ratio colloidal quantum wells. Matter, 2(6), 1550-1563. https://dx.doi.org/10.1016/j.matt.2020.03.013 2590-2385 0000-0001-6183-4082 https://hdl.handle.net/10356/150606 10.1016/j.matt.2020.03.013 2-s2.0-85085271177 6 2 1550 1563 en Matter © 2020 Elsevier (Published under Cell Press). All rights reserved. This paper was published in Matter and is made available with permission of Elsevier (Published under Cell Press). application/pdf |
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Science::Physics Colloidal Quantum Wells Exciton-plasmon Interaction |
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Science::Physics Colloidal Quantum Wells Exciton-plasmon Interaction Yu, Junhong Hou, Songyan Sharma, Manoj Tobing, Landobasa Y. M. Song, Zhigang Delikanli, Savas Hettiarachchi, Chathuranga Zhang, Daohua Fan, Weijun Muhammad Danang Birowosuto Wang, Hong Demir, Hilmi Volkan Dang, Cuong Strong plasmon-Wannier Mott exciton interaction with high aspect ratio colloidal quantum wells |
| description |
The strong interaction between excitons and plasmons, manifested as Rabi splitting of the eigen energies, is of fundamental interest for manipulating photons in nanoscale devices. Thanks to their enhanced photostability and minimal inhomogeneous broadening compared with organic molecules, inorganic emitters are preferred for practical applications. However, a relatively small Rabi splitting with inorganic materials severely hinders the active plasmonic operation, considering its weak optical nonlinearity and slow energy interexchange. Here, we circumvent this problem in a hybrid system consisting of high aspect ratio colloidal quantum wells (HARCQWs) and an individual plasmonic silver nanocube. By taking advantages of a highly in-plane oriented exciton, enhanced exciton binding energy, and non-stacking properties in HARCQWs, we demonstrate an unprecedented giant Rabi splitting energy up to 400 meV under ambient conditions, which is observed not only in scattering but also in photoluminescent spectra. These findings are a key step toward achieving inorganic plasmonic devices. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Yu, Junhong Hou, Songyan Sharma, Manoj Tobing, Landobasa Y. M. Song, Zhigang Delikanli, Savas Hettiarachchi, Chathuranga Zhang, Daohua Fan, Weijun Muhammad Danang Birowosuto Wang, Hong Demir, Hilmi Volkan Dang, Cuong |
| format |
Article |
| author |
Yu, Junhong Hou, Songyan Sharma, Manoj Tobing, Landobasa Y. M. Song, Zhigang Delikanli, Savas Hettiarachchi, Chathuranga Zhang, Daohua Fan, Weijun Muhammad Danang Birowosuto Wang, Hong Demir, Hilmi Volkan Dang, Cuong |
| author_sort |
Yu, Junhong |
| title |
Strong plasmon-Wannier Mott exciton interaction with high aspect ratio colloidal quantum wells |
| title_short |
Strong plasmon-Wannier Mott exciton interaction with high aspect ratio colloidal quantum wells |
| title_full |
Strong plasmon-Wannier Mott exciton interaction with high aspect ratio colloidal quantum wells |
| title_fullStr |
Strong plasmon-Wannier Mott exciton interaction with high aspect ratio colloidal quantum wells |
| title_full_unstemmed |
Strong plasmon-Wannier Mott exciton interaction with high aspect ratio colloidal quantum wells |
| title_sort |
strong plasmon-wannier mott exciton interaction with high aspect ratio colloidal quantum wells |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150606 |
| _version_ |
1702431266728574976 |