Deterministic positioning of few aqueous colloidal quantum dots
Emerging quantum technologies that critically require the integration of quantum emitters on photonic platforms are hindered by the control over their position, quantity, and scalability. Herein, we describe a facile strategy to deposit aqueous silica-coated quantum dots (QDs) in a template of polym...
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sg-ntu-dr.10356-1812132024-11-18T01:06:25Z Deterministic positioning of few aqueous colloidal quantum dots Pambudi, Muhammad Tegar Arora, Deepshikha Liang, Xiao Sain, Basudeb Ranganath, Anupama Sargur Chua, Matthew R. Vu, Cam Nhung Zamiri, Golnoush Rahman, Md Abdur Demir, Hilmi Volkan Yang, Joel K. W. Ding, Lu School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences Institute of Materials Research and Engineering, A*STAR Singapore University of Technology and Design The Photonics Institute LUMINOUS! Center of Excellence for Semiconductor Lighting and Displays Engineering Colloidal quantum dots Deterministics Emerging quantum technologies that critically require the integration of quantum emitters on photonic platforms are hindered by the control over their position, quantity, and scalability. Herein, we describe a facile strategy to deposit aqueous silica-coated quantum dots (QDs) in a template of polymethyl methacrylate (PMMA) nanoholes that leverages saturated ethanol vapor drop-casting and subsequent lift-off of the template. Ethanol vapor incorporation into water droplets during the drying process reduces the meniscus contact angle, which increases capillary forces and enhances particle confinement within the pinning contact region. Furthermore, induced Marangoni flow controls the particle transport dynamics inside the droplets, making large-scale deposition possible. Controlling the hole diameter of the template demonstrates changes in the number of QDs per hole, which is consistent with the Poissonian distribution with the best results of ∼40% single-particle yield from an ∼80% total site occupancy. This method employs a simple setup, eliminating the need for intricate optimization, yet offers the potential for deterministic patterning within complex photonic platforms. Agency for Science, Technology and Research (A*STAR) This work was supported by the A*STAR MTC Programmatic grant no. M21J9b0085 and MTC Individual Research Grants (IRG) with grant no. M22K2c0090. MTP acknowledges the support from the A*STAR Singapore International Graduate Award (SINGA) Scholarship. HVD gratefully acknowledges support from TÜBA. 2024-11-18T01:06:25Z 2024-11-18T01:06:25Z 2024 Journal Article Pambudi, M. T., Arora, D., Liang, X., Sain, B., Ranganath, A. S., Chua, M. R., Vu, C. N., Zamiri, G., Rahman, M. A., Demir, H. V., Yang, J. K. W. & Ding, L. (2024). Deterministic positioning of few aqueous colloidal quantum dots. Nanoscale, 16(39), 18339-18347. https://dx.doi.org/10.1039/d4nr02123a 2040-3364 https://hdl.handle.net/10356/181213 10.1039/d4nr02123a 39190301 2-s2.0-85202671783 39 16 18339 18347 en M21J9B0085 M22K2c0090 Nanoscale © 2024 The Author(s). All rights reserved. |
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Engineering Colloidal quantum dots Deterministics |
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Engineering Colloidal quantum dots Deterministics Pambudi, Muhammad Tegar Arora, Deepshikha Liang, Xiao Sain, Basudeb Ranganath, Anupama Sargur Chua, Matthew R. Vu, Cam Nhung Zamiri, Golnoush Rahman, Md Abdur Demir, Hilmi Volkan Yang, Joel K. W. Ding, Lu Deterministic positioning of few aqueous colloidal quantum dots |
| description |
Emerging quantum technologies that critically require the integration of quantum emitters on photonic platforms are hindered by the control over their position, quantity, and scalability. Herein, we describe a facile strategy to deposit aqueous silica-coated quantum dots (QDs) in a template of polymethyl methacrylate (PMMA) nanoholes that leverages saturated ethanol vapor drop-casting and subsequent lift-off of the template. Ethanol vapor incorporation into water droplets during the drying process reduces the meniscus contact angle, which increases capillary forces and enhances particle confinement within the pinning contact region. Furthermore, induced Marangoni flow controls the particle transport dynamics inside the droplets, making large-scale deposition possible. Controlling the hole diameter of the template demonstrates changes in the number of QDs per hole, which is consistent with the Poissonian distribution with the best results of ∼40% single-particle yield from an ∼80% total site occupancy. This method employs a simple setup, eliminating the need for intricate optimization, yet offers the potential for deterministic patterning within complex photonic platforms. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Pambudi, Muhammad Tegar Arora, Deepshikha Liang, Xiao Sain, Basudeb Ranganath, Anupama Sargur Chua, Matthew R. Vu, Cam Nhung Zamiri, Golnoush Rahman, Md Abdur Demir, Hilmi Volkan Yang, Joel K. W. Ding, Lu |
| format |
Article |
| author |
Pambudi, Muhammad Tegar Arora, Deepshikha Liang, Xiao Sain, Basudeb Ranganath, Anupama Sargur Chua, Matthew R. Vu, Cam Nhung Zamiri, Golnoush Rahman, Md Abdur Demir, Hilmi Volkan Yang, Joel K. W. Ding, Lu |
| author_sort |
Pambudi, Muhammad Tegar |
| title |
Deterministic positioning of few aqueous colloidal quantum dots |
| title_short |
Deterministic positioning of few aqueous colloidal quantum dots |
| title_full |
Deterministic positioning of few aqueous colloidal quantum dots |
| title_fullStr |
Deterministic positioning of few aqueous colloidal quantum dots |
| title_full_unstemmed |
Deterministic positioning of few aqueous colloidal quantum dots |
| title_sort |
deterministic positioning of few aqueous colloidal quantum dots |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181213 |
| _version_ |
1816858937214894080 |