Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells
The realization of high-quality lasers in microfluidic devices is crucial for numerous applications, including biological and chemical sensors and flow cytometry, and the development of advanced lab-on-chip (LOC) devices. Herein, an ultralow-threshold microfluidic single-mode laser is proposed and d...
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sg-ntu-dr.10356-1505882021-06-03T02:00:39Z Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells Maskoun, Joudi Gheshlaghi, Negar Isik, Furkan Delikanli, Savas Erdem, Onur Erdem, Emine Yegan Demir, Hilmi Volkan School of Electrical and Electronic Engineering Science::Physics Microfluidics Semiconductor Quantum Wells The realization of high-quality lasers in microfluidic devices is crucial for numerous applications, including biological and chemical sensors and flow cytometry, and the development of advanced lab-on-chip (LOC) devices. Herein, an ultralow-threshold microfluidic single-mode laser is proposed and demonstrated using an on-chip cavity. CdSe/CdS@Cdx Zn1-x S core/crown@gradient-alloyed shell colloidal semiconductor quantum wells (CQWs) dispersed in toluene are employed in the cavity created inside a poly(dimethylsiloxane) (PDMS) microfluidic device using SiO2 -protected Ag mirrors to achieve in-solution lasing. Lasing from such a microfluidic device having CQWs solution as a microfluidic gain medium is shown for the first time with a record-low optical gain threshold of 17.1 µJ cm- ² and lasing threshold of 68.4 µJ cm- ² among all solution-based lasing demonstrations. In addition, air-stable SiO2 protected Ag films are used and designed to form highly tunable and reflective mirrors required to attain a high-quality Fabry-Pérot cavity. These realized record-low thresholds emanate from the high-quality on-chip cavity together with the core/crown@gradient-alloyed shell CQWs having giant gain cross-section and slow Auger rates. This microfabricated CQW laser provides a compact and inexpensive coherent light source for microfluidics and integrated optics covering the visible spectral region. National Research Foundation (NRF) Accepted version 2021-06-03T02:00:38Z 2021-06-03T02:00:38Z 2021 Journal Article Maskoun, J., Gheshlaghi, N., Isik, F., Delikanli, S., Erdem, O., Erdem, E. Y. & Demir, H. V. (2021). Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells. Advanced Materials, 33(10), e2007131-. https://dx.doi.org/10.1002/adma.202007131 1521-4095 0000-0003-1793-112X https://hdl.handle.net/10356/150588 10.1002/adma.202007131 33491818 2-s2.0-85099914427 10 33 e2007131 en Advanced Materials This is the peer reviewed version of the following article: Maskoun, J., Gheshlaghi, N., Isik, F., Delikanli, S., Erdem, O., Erdem, E. Y. & Demir, H. V. (2021). Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells. Advanced Materials, 33(10), e2007131-. https://dx.doi.org/10.1002/adma.202007131, which has been published in final form at https://doi.org/10.1002/adma.202007131. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |
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Science::Physics Microfluidics Semiconductor Quantum Wells Maskoun, Joudi Gheshlaghi, Negar Isik, Furkan Delikanli, Savas Erdem, Onur Erdem, Emine Yegan Demir, Hilmi Volkan Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells |
| description |
The realization of high-quality lasers in microfluidic devices is crucial for numerous applications, including biological and chemical sensors and flow cytometry, and the development of advanced lab-on-chip (LOC) devices. Herein, an ultralow-threshold microfluidic single-mode laser is proposed and demonstrated using an on-chip cavity. CdSe/CdS@Cdx Zn1-x S core/crown@gradient-alloyed shell colloidal semiconductor quantum wells (CQWs) dispersed in toluene are employed in the cavity created inside a poly(dimethylsiloxane) (PDMS) microfluidic device using SiO2 -protected Ag mirrors to achieve in-solution lasing. Lasing from such a microfluidic device having CQWs solution as a microfluidic gain medium is shown for the first time with a record-low optical gain threshold of 17.1 µJ cm- ² and lasing threshold of 68.4 µJ cm- ² among all solution-based lasing demonstrations. In addition, air-stable SiO2 protected Ag films are used and designed to form highly tunable and reflective mirrors required to attain a high-quality Fabry-Pérot cavity. These realized record-low thresholds emanate from the high-quality on-chip cavity together with the core/crown@gradient-alloyed shell CQWs having giant gain cross-section and slow Auger rates. This microfabricated CQW laser provides a compact and inexpensive coherent light source for microfluidics and integrated optics covering the visible spectral region. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Maskoun, Joudi Gheshlaghi, Negar Isik, Furkan Delikanli, Savas Erdem, Onur Erdem, Emine Yegan Demir, Hilmi Volkan |
| format |
Article |
| author |
Maskoun, Joudi Gheshlaghi, Negar Isik, Furkan Delikanli, Savas Erdem, Onur Erdem, Emine Yegan Demir, Hilmi Volkan |
| author_sort |
Maskoun, Joudi |
| title |
Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells |
| title_short |
Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells |
| title_full |
Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells |
| title_fullStr |
Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells |
| title_full_unstemmed |
Optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells |
| title_sort |
optical microfluidic waveguides and solution lasers of colloidal semiconductor quantum wells |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150588 |
| _version_ |
1702431248707747840 |