Here, we present the concept of flat-field capillary-assisted nanoparticle tracking analysis for the characterization of fast diffusing nano-objects. By combining diffusion confinement and spatially invariant illumination, i.e., flat-fields, within a fiber-interfaced on-chip environment, ultra-long trajectories of fast diffusing objects within large microchannels have been measured via diffraction-limited imaging. Our study discusses the design procedure, explains potential limitations, and experimentally confirms flat-field formation by tracking gold nanospheres. The presented concept enables generating flat-fields in a novel on-chip optofluidic platform for the characterization of individual nano-objects for fundamental light/matter investigations or applications in bioanalytics and nanoscale material science.
Capillary-assisted flat-field formation: a platform for advancing nanoparticle tracking analysis in an integrated on-chip optofluidic environment.
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作者:Gui Fengji, Foerster Ronny, Wieduwilt Torsten, Zeisberger Matthias, Kim Jisoo, Schmidt Markus A
| 期刊: | Nanophotonics | 影响因子: | 6.600 |
| 时间: | 2024 | 起止号: | 2024 May 20; 13(17):3135-3145 |
| doi: | 10.1515/nanoph-2024-0139 | ||
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