Nanometer-precision linear sorting with synchronized optofluidic dual barriers
The past two decades have witnessed the revolutionary development of optical trapping of nanoparticles, most of which deal with trapping stiffness larger than 10−8 N/m. In this conventional regime, however, it remains a formidable challenge to sort out sub–50-nm nanoparticles with single-nanometer p...
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sg-ntu-dr.10356-855482020-06-01T10:21:09Z Nanometer-precision linear sorting with synchronized optofluidic dual barriers Shi, Yuzhi Xiong, Sha Chin, Lip Ket Zhang, Jingbo Ser, Wee Wu, Jiuhui Chen, Tianning Yang, Zhenchuan Hao, Yilong Liedberg, Bo Yap, Peng Huat Tsai, Din Ping Qiu, Cheng-Wei Liu, Ai Qun School of Electrical and Electronic Engineering School of Materials Science & Engineering Lee Kong Chian School of Medicine (LKCMedicine) Centre for Biomimetic Sensor Science Nanometer Precision Optofluidic Dual Barriers The past two decades have witnessed the revolutionary development of optical trapping of nanoparticles, most of which deal with trapping stiffness larger than 10−8 N/m. In this conventional regime, however, it remains a formidable challenge to sort out sub–50-nm nanoparticles with single-nanometer precision, isolating us from a rich flatland with advanced applications of micromanipulation. With an insightfully established roadmap of damping, the synchronization between optical force and flow drag force can be coordinated to attempt the loosely overdamped realm (stiffness, 10−10 to 10−8 N/m), which has been challenging. This paper intuitively demonstrates the remarkable functionality to sort out single gold nanoparticles with radii ranging from 30 to 50 nm, as well as 100- and 150-nm polystyrene nanoparticles, with single nanometer precision. The quasi-Bessel optical profile and the loosely overdamped potential wells in the microchannel enable those aforementioned nanoparticles to be separated, positioned, and microscopically oscillated. This work reveals an unprecedentedly meaningful damping scenario that enriches our fundamental understanding of particle kinetics in intriguing optical systems, and offers new opportunities for tumor targeting, intracellular imaging, and sorting small particles such as viruses and DNA. NRF (Natl Research Foundation, S’pore) Published version 2018-07-23T06:41:18Z 2019-12-06T16:05:48Z 2018-07-23T06:41:18Z 2019-12-06T16:05:48Z 2018 Journal Article Shi, Y., Xiong, S., Chin, L. K., Zhang, J., Ser, W., Wu, J., et al. (2018). Nanometer-precision linear sorting with synchronized optofluidic dual barriers. Science Advances, 4(1), eaao0773-. https://hdl.handle.net/10356/85548 http://hdl.handle.net/10220/45176 10.1126/sciadv.aao0773 en Science Advances © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license, which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited. 8 p. application/pdf |
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Nanometer Precision Optofluidic Dual Barriers |
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Nanometer Precision Optofluidic Dual Barriers Shi, Yuzhi Xiong, Sha Chin, Lip Ket Zhang, Jingbo Ser, Wee Wu, Jiuhui Chen, Tianning Yang, Zhenchuan Hao, Yilong Liedberg, Bo Yap, Peng Huat Tsai, Din Ping Qiu, Cheng-Wei Liu, Ai Qun Nanometer-precision linear sorting with synchronized optofluidic dual barriers |
| description |
The past two decades have witnessed the revolutionary development of optical trapping of nanoparticles, most of which deal with trapping stiffness larger than 10−8 N/m. In this conventional regime, however, it remains a formidable challenge to sort out sub–50-nm nanoparticles with single-nanometer precision, isolating us from a rich flatland with advanced applications of micromanipulation. With an insightfully established roadmap of damping, the synchronization between optical force and flow drag force can be coordinated to attempt the loosely overdamped realm (stiffness, 10−10 to 10−8 N/m), which has been challenging. This paper intuitively demonstrates the remarkable functionality to sort out single gold nanoparticles with radii ranging from 30 to 50 nm, as well as 100- and 150-nm polystyrene nanoparticles, with single nanometer precision. The quasi-Bessel optical profile and the loosely overdamped potential wells in the microchannel enable those aforementioned nanoparticles to be separated, positioned, and microscopically oscillated. This work reveals an unprecedentedly meaningful damping scenario that enriches our fundamental understanding of particle kinetics in intriguing optical systems, and offers new opportunities for tumor targeting, intracellular imaging, and sorting small particles such as viruses and DNA. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Shi, Yuzhi Xiong, Sha Chin, Lip Ket Zhang, Jingbo Ser, Wee Wu, Jiuhui Chen, Tianning Yang, Zhenchuan Hao, Yilong Liedberg, Bo Yap, Peng Huat Tsai, Din Ping Qiu, Cheng-Wei Liu, Ai Qun |
| format |
Article |
| author |
Shi, Yuzhi Xiong, Sha Chin, Lip Ket Zhang, Jingbo Ser, Wee Wu, Jiuhui Chen, Tianning Yang, Zhenchuan Hao, Yilong Liedberg, Bo Yap, Peng Huat Tsai, Din Ping Qiu, Cheng-Wei Liu, Ai Qun |
| author_sort |
Shi, Yuzhi |
| title |
Nanometer-precision linear sorting with synchronized optofluidic dual barriers |
| title_short |
Nanometer-precision linear sorting with synchronized optofluidic dual barriers |
| title_full |
Nanometer-precision linear sorting with synchronized optofluidic dual barriers |
| title_fullStr |
Nanometer-precision linear sorting with synchronized optofluidic dual barriers |
| title_full_unstemmed |
Nanometer-precision linear sorting with synchronized optofluidic dual barriers |
| title_sort |
nanometer-precision linear sorting with synchronized optofluidic dual barriers |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/85548 http://hdl.handle.net/10220/45176 |
| _version_ |
1681056066138275840 |