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Acoustic Assembly and Scanning of Superlens Arrays for High-Resolution and Large Field-of-View Bioimaging

Xuejia Hu, Jingjing Zheng, Zhu Qingqi, Qian Wu, Sensen Li, Yi Yang, Lujian Chen

2024ACS Nano17 citationsDOI

Abstract

High-resolution and dynamic bioimaging is essential in life sciences and biomedical applications. In recent years, microspheres combined with optical microscopes have offered a low cost but promising solution for super-resolution imaging, by breaking the diffraction barrier. However, challenges still exist in precisely and parallelly superlens controlling using a noncontact manner, to meet the demands of large-area scanning imaging for desired targets. This study proposes an acoustic wavefield-based strategy for assembling and manipulating micrometer-scale superlens arrays, in addition to achieving on-demand scanning imaging through phase modulation. In experiments, acoustic pressure nodes are designed to be comparable in size to microspheres, allowing spatially dispersed microspheres to be arranged into arrays with one unit per node. Droplet microlenses with various diameters can be adapted in the array, allowing for a wide range of spacing periods by applying different frequencies. In addition, through the continuous phase shifting in the x and y directions, this acoustic superlens array achieves on-demand moving for the parallel high-resolution virtual image capturing and scanning of nanostructures and biological cell samples. As a comparison, this noncontact and cost-effective acoustic manner can obtain more than ∼100 times the acquisition efficiency of a single lens, holding promise in advancing super-resolution microscopy and subcellular-level bioimaging.

Topics & Concepts

Materials scienceNanotechnologySuperlensResolution (logic)Field (mathematics)SuperresolutionNear-field scanning optical microscopeOpticsOptoelectronicsMetamaterialScanning electron microscopeComputer sciencePhysicsOptical microscopeMathematicsImage (mathematics)Pure mathematicsComposite materialArtificial intelligenceNear-Field Optical MicroscopyMicrofluidic and Bio-sensing TechnologiesAdvanced Fluorescence Microscopy Techniques
Acoustic Assembly and Scanning of Superlens Arrays for High-Resolution and Large Field-of-View Bioimaging | Litcius