Nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving
Current particle sorting methods such as microfluidics, acoustics, and optics focus on exploiting the differences in the mass, size, refractive index, or fluorescence staining. However, there exist formidable challenges for them to sort label-free submicron particles with similar volume and refracti...
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sg-ntu-dr.10356-1391672020-05-16T14:00:35Z Nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving Shi, Yuzhi Zhao, Haitao Nguyen, Kim Truc Zhang, Yi Chin, Lip Ket Zhu, Tongtong Yu, Yefeng Cai, Hong Yap, Peng Huat Liu, Patricia Yang Xiong, Sha Zhang, Jingbo Qiu, Cheng-Wei Chan, Che Ting Liu, Ai Qun School of Electrical and Electronic Engineering School of Mechanical and Aerospace Engineering Lee Kong Chian School of Medicine (LKCMedicine) Engineering::Electrical and electronic engineering Shape Sorting Optical Binding Current particle sorting methods such as microfluidics, acoustics, and optics focus on exploiting the differences in the mass, size, refractive index, or fluorescence staining. However, there exist formidable challenges for them to sort label-free submicron particles with similar volume and refractive index yet distinct shapes. In this work, we report an optofluidic nanophotonic sawtooth array (ONSA) that generates sawtooth-like light fields through light coupling, paving the physical foundation for shape-selective sieving. Submicron particles interact with the coupled hotspots which impose different optical torques on the particles according to their shapes. Unstained S. aureus and E. coli are used as a model system to demonstrate this shape-selective sorting mechanism based on the torque-induced body dynamics, which was previously unattainable by other particle sorting technologies. More than 95% of S. aureus is retained within ONSA, while more than 97% of E. coli is removed. This nanophotonic chip offers a paradigm shift in shape-selective sorting of submicron particles and expands the boundary of optofluidics-based particle manipulation. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) Accepted version 2020-05-16T13:55:46Z 2020-05-16T13:55:46Z 2019 Journal Article Shi, Y., Zhao, H., Nguyen, K. T., Zhang, Y., Chin, L. K., Zhu, T., . . . Liu, A. Q. (2019). Nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving. ACS Nano, 13(10), 12070-12080. doi:10.1021/acsnano.9b06459 1936-0851 https://hdl.handle.net/10356/139167 10.1021/acsnano.9b06459 31585042 2-s2.0-85073162471 10 13 12070 12080 en NRF-CRP13-2014-01 MOE2017-T3-1-001 ACS Nano This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Nano, copyright © 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/acsnano.9b06459 application/pdf |
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Engineering::Electrical and electronic engineering Shape Sorting Optical Binding |
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Engineering::Electrical and electronic engineering Shape Sorting Optical Binding Shi, Yuzhi Zhao, Haitao Nguyen, Kim Truc Zhang, Yi Chin, Lip Ket Zhu, Tongtong Yu, Yefeng Cai, Hong Yap, Peng Huat Liu, Patricia Yang Xiong, Sha Zhang, Jingbo Qiu, Cheng-Wei Chan, Che Ting Liu, Ai Qun Nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving |
| description |
Current particle sorting methods such as microfluidics, acoustics, and optics focus on exploiting the differences in the mass, size, refractive index, or fluorescence staining. However, there exist formidable challenges for them to sort label-free submicron particles with similar volume and refractive index yet distinct shapes. In this work, we report an optofluidic nanophotonic sawtooth array (ONSA) that generates sawtooth-like light fields through light coupling, paving the physical foundation for shape-selective sieving. Submicron particles interact with the coupled hotspots which impose different optical torques on the particles according to their shapes. Unstained S. aureus and E. coli are used as a model system to demonstrate this shape-selective sorting mechanism based on the torque-induced body dynamics, which was previously unattainable by other particle sorting technologies. More than 95% of S. aureus is retained within ONSA, while more than 97% of E. coli is removed. This nanophotonic chip offers a paradigm shift in shape-selective sorting of submicron particles and expands the boundary of optofluidics-based particle manipulation. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Shi, Yuzhi Zhao, Haitao Nguyen, Kim Truc Zhang, Yi Chin, Lip Ket Zhu, Tongtong Yu, Yefeng Cai, Hong Yap, Peng Huat Liu, Patricia Yang Xiong, Sha Zhang, Jingbo Qiu, Cheng-Wei Chan, Che Ting Liu, Ai Qun |
| format |
Article |
| author |
Shi, Yuzhi Zhao, Haitao Nguyen, Kim Truc Zhang, Yi Chin, Lip Ket Zhu, Tongtong Yu, Yefeng Cai, Hong Yap, Peng Huat Liu, Patricia Yang Xiong, Sha Zhang, Jingbo Qiu, Cheng-Wei Chan, Che Ting Liu, Ai Qun |
| author_sort |
Shi, Yuzhi |
| title |
Nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving |
| title_short |
Nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving |
| title_full |
Nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving |
| title_fullStr |
Nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving |
| title_full_unstemmed |
Nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving |
| title_sort |
nanophotonic array-induced dynamic behavior for label-free shape-selective bacteria sieving |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/139167 |
| _version_ |
1681059585991901184 |