This article is cited by 11 publications. The AS-nanoscope has the potential to be integrated into a conventional microscope or could serve as a stand-alone instrument for a wide range of applications where both high resolution and large field of view are required. A scanned 2D image is then compiled by processing the microparticle images using an automated big-data image algorithm. The AS-nanoscope relies on acoustofluidic-assisted scanning of multiple microsized particles. In an effort to close the gap between these trade-offs, we introduce an acoustofluidic scanning nanoscope (AS-nanoscope) that can simultaneously achieve high resolution with a large field of view. In contrast, a high NA objective lens will have a higher resolution but reduced field of view. An objective lens with a low numerical aperture (NA) has a large field of view but poor resolution. Unfortunately, it is challenging to achieve these two features simultaneously while using a conventional microscope. Optical imaging with nanoscale resolution and a large field of view is highly desirable in many research areas.
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