Counting and mapping of subwavelength nanoparticles from a single shot scattering pattern
Particle counting is of critical importance for nanotechnology, environmental monitoring, pharmaceutical, food and semiconductor industries. Here we introduce a super-resolution single-shot optical method for counting and mapping positions of subwavelength particles on a surface. The method is based...
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sg-ntu-dr.10356-1696512023-07-31T15:35:18Z Counting and mapping of subwavelength nanoparticles from a single shot scattering pattern Chan, Eng Aik Rendón-Barraza, Carolina Wang, Benquan Pu, Tanchao Ou, Jun-Yu Wei, Hongxin Adamo, Giorgio An, Bo Zheludev, Nikolay I. School of Physical and Mathematical Sciences School of Computer Science and Engineering Centre for Disruptive Photonic Technologies (CDPT) The Photonics Institute Engineering::Nanotechnology Nnanoparticle Counting Nanoparticle Imaging Particle counting is of critical importance for nanotechnology, environmental monitoring, pharmaceutical, food and semiconductor industries. Here we introduce a super-resolution single-shot optical method for counting and mapping positions of subwavelength particles on a surface. The method is based on the deep learning analysis of the intensity profile of the coherent light scattered on the group of particles. In a proof of principle experiment, we demonstrated particle counting accuracies of more than 90%. We also demonstrate that the particle locations can be mapped on a 4 × 4 grid with a nearly perfect accuracy (16-pixel binary imaging of the particle ensemble). Both the retrieval of number of particles and their mapping is achieved with super-resolution: accuracies are similar for sets with closely located optically unresolvable particles and sets with sparsely located particles. As the method does not require fluorescent labelling of the particles, is resilient to small variations of particle sizes, can be adopted to counting various types of nanoparticulates and high rates, it can find applications in numerous particles counting tasks in nanotechnology, life sciences and beyond. Ministry of Education (MOE) National Research Foundation (NRF) Published version The authors acknowledge the Singapore National Research Foundation (Grant No. NRF-CRP23-2019-0006) the Singapore Ministry of Education (Grant No. MOE2016-T3-1- 006) and the Engineering and Physical Sciences Research Council UK (Grants No. EP/T02643X/1). 2023-07-28T01:35:15Z 2023-07-28T01:35:15Z 2023 Journal Article Chan, E. A., Rendón-Barraza, C., Wang, B., Pu, T., Ou, J., Wei, H., Adamo, G., An, B. & Zheludev, N. I. (2023). Counting and mapping of subwavelength nanoparticles from a single shot scattering pattern. Nanophotonics, 12(14), 2807-2812. https://dx.doi.org/10.1515/nanoph-2022-0612 2192-8606 https://hdl.handle.net/10356/169651 10.1515/nanoph-2022-0612 2-s2.0-85146698867 14 12 2807 2812 en NRF-CRP23-2019-0006 MOE2016-T3-1- 006 Nanophotonics © 2023 the author(s), published by De Gruyter. This work is licensed under the Creative Commons Attribution 4.0 International License. application/pdf |
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Engineering::Nanotechnology Nnanoparticle Counting Nanoparticle Imaging |
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Engineering::Nanotechnology Nnanoparticle Counting Nanoparticle Imaging Chan, Eng Aik Rendón-Barraza, Carolina Wang, Benquan Pu, Tanchao Ou, Jun-Yu Wei, Hongxin Adamo, Giorgio An, Bo Zheludev, Nikolay I. Counting and mapping of subwavelength nanoparticles from a single shot scattering pattern |
| description |
Particle counting is of critical importance for nanotechnology, environmental monitoring, pharmaceutical, food and semiconductor industries. Here we introduce a super-resolution single-shot optical method for counting and mapping positions of subwavelength particles on a surface. The method is based on the deep learning analysis of the intensity profile of the coherent light scattered on the group of particles. In a proof of principle experiment, we demonstrated particle counting accuracies of more than 90%. We also demonstrate that the particle locations can be mapped on a 4 × 4 grid with a nearly perfect accuracy (16-pixel binary imaging of the particle ensemble). Both the retrieval of number of particles and their mapping is achieved with super-resolution: accuracies are similar for sets with closely located optically unresolvable particles and sets with sparsely located particles. As the method does not require fluorescent labelling of the particles, is resilient to small variations of particle sizes, can be adopted to counting various types of nanoparticulates and high rates, it can find applications in numerous particles counting tasks in nanotechnology, life sciences and beyond. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Chan, Eng Aik Rendón-Barraza, Carolina Wang, Benquan Pu, Tanchao Ou, Jun-Yu Wei, Hongxin Adamo, Giorgio An, Bo Zheludev, Nikolay I. |
| format |
Article |
| author |
Chan, Eng Aik Rendón-Barraza, Carolina Wang, Benquan Pu, Tanchao Ou, Jun-Yu Wei, Hongxin Adamo, Giorgio An, Bo Zheludev, Nikolay I. |
| author_sort |
Chan, Eng Aik |
| title |
Counting and mapping of subwavelength nanoparticles from a single shot scattering pattern |
| title_short |
Counting and mapping of subwavelength nanoparticles from a single shot scattering pattern |
| title_full |
Counting and mapping of subwavelength nanoparticles from a single shot scattering pattern |
| title_fullStr |
Counting and mapping of subwavelength nanoparticles from a single shot scattering pattern |
| title_full_unstemmed |
Counting and mapping of subwavelength nanoparticles from a single shot scattering pattern |
| title_sort |
counting and mapping of subwavelength nanoparticles from a single shot scattering pattern |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169651 |
| _version_ |
1773551412701036544 |