Optical superoscillation technologies beyond the diffraction limit

Zheludev, Nikolay I.; Yuan, Guang

doi:10.1038/s42254-021-00382-7

Cited by 66 publications

(43 citation statements)

References 134 publications

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“…Fluorescence imaging has become a robust tool to directly image and monitor vital biomolecules and their associated processes. − Various fluorescent probes with blue to near-infrared emissions have been elegantly synthesized for LD dynamic imaging. − However, most of these LD probes suffer from low resolution (>200 nm) . To overcome this bottleneck, super-resolution imaging techniques have become an indispensable approach to accurately visualize nanoscale structures below 200 nm. − Indeed, a few research groups successfully constructed new LD-specific fluorescent probes for super-resolution imaging using structured illumination microscopy (SIM) and stimulated emission depletion (STED) microscopy. − Interesting imaging results of nano-sized cytosolic LDs with improved higher resolution over traditional confocal laser scanning microscopy (CLSM) have been acquired.…”

Section: Introductionmentioning

confidence: 99%

Structure Rigidification Promoted Ultrabright Solvatochromic Fluorescent Probes for Super-Resolution Imaging of Cytosolic and Nuclear Lipid Droplets

et al. 2022

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Lipid droplets (LDs) containing cytosolic and nuclear LDs have recently received increasing attention because of their diverse biological roles in living systems. However, developing fluorescent probes for super-resolution visualization of these subcellular LDs still remains challenging due to insufficient fluorescence brightness and poor nuclear membrane permeability. Herein, we rationally synthesized a series of ultrabright solvatochromic fluorescent probes based on benzoboranils (BBAs) for LD-specific super-resolution imaging using structured illumination microscopy (SIM). The rigidly structured probes exhibit ultrahigh fluorescence quantum yields of up to 99.9% in low-polar solvents. They also show more significant fluorescence enhancements in lipid environments than commercial LD probes. Owing to these excellent merits, our lipophilic fluorescent probes can specifically light up subcellular LDs at ultralow concentrations down to 10 nM. Further use of BBA-CF 3 for super-resolution SIM imaging of cytosolic and nuclear LDs and their fusion process was successfully achieved. The unprecedented spatial resolution for nuclear LDs with an FWHM value of 142 nm was also acquired. Collectively, our ultrabright fluorescent probes hold tremendous potential to unveil the mysterious roles of cytosolic and nuclear LDs in biological research using SIM.

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Section: Introductionmentioning

confidence: 99%

Structure Rigidification Promoted Ultrabright Solvatochromic Fluorescent Probes for Super-Resolution Imaging of Cytosolic and Nuclear Lipid Droplets

et al. 2022

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“…The high-order Fano resonances in such particles are characterized by the high degree of the field localization, that exceeds the diffraction limit both inside the particle and on its surface. The latter is associated with the formation of regions having high values of the local wavenumber vectors by analogy with the superoscillation effects [9,10]. In accordance with this theory, the local wavenumber vector is a local phase gradient, viz.…”

Section: Giant Magnetic Field Generation In Mesoscale Particlesmentioning

confidence: 73%

“…In the authors' opinion, the creation of mesoparticle chains with the required properties using the phase-matching mechanism that relies on the coupling of random quasi-phase-matching with the Mie resonance of the entirely disordered mesostructure is promising [173]. The generation of hot spots, having giant values of the local wavenumber vectors, by use a superoscillation effects [9,10] is extremely promising not only for mesoscale photonics and superresolution imaging, but also for diffractive optics [174], whose research was begun back in 1990 [175].…”

Section: Discussionmentioning

confidence: 99%

Optical Phenomena in Mesoscale Dielectric Particles

Minin

2021

Photonics

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During the last decade, new unusual physical phenomena have been discovered in studying the optics of dielectric mesoscale particles of an arbitrary three-dimensional shape with the Mie size parameter near 10 (q~10). The paper provides a brief overview of these phenomena from optics to terahertz, plasmonic and acoustic ranges. The different particle configurations (isolated, regular or Janus) are discussed, and the possible applications of such mesoscale structures are briefly reviewed herein in relation to the field enhancement, nanoparticle manipulation and super-resolution imaging. The number of interesting applications indicates the appearance of a new promising scientific direction in optics, terahertz and acoustic ranges, and plasmonics. This paper presents the authors’ approach to these problems.

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“…Also a promising way from our point of view is the way of creating assembled mesoparticles with the required properties based on phase-matching mechanism that relies on the coupling of random quasi-phase-matching with the Mie resonances of the entire disordered mesostructure [171]. The generation of hot spots, having giant values of the local wavenumber vectors, by use a superoscillation effects [9,10] extremely promising not only for mesoscale photonics and superresolution imaging, but also for diffractive optics [172], whose research was begun back in 1990 [173].…”

Section: Discussionmentioning

confidence: 99%

Optical phenomena in mesoscale dielectric particles

Minin¹,

Minin²

2021

Preprint

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During the last decade, new unusual physical phenomena have been discovered in studying the optics of dielectric mesoscale particles of an arbitrary three-dimensional shape with the Mie size parameter near 10 (q ~ 10). The paper provides a brief overview of these phenomena from optics to terahertz, plasmonic and acoustic ranges. The different particle configurations (isolated, regular or Janus) are discussed, and the possible applications of such mesoscale structures are briefly reviewed herein in relation to the field enhancement, nanoparticle manipulation and super-resolution imaging. The number of interesting applications indicates to a new promising scientific direction emerged in optics, terahertz and acoustic ranges, and plasmonics. In this paper we present the authors' view of these problems.

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Optical superoscillation technologies beyond the diffraction limit

Cited by 66 publications

References 134 publications

Structure Rigidification Promoted Ultrabright Solvatochromic Fluorescent Probes for Super-Resolution Imaging of Cytosolic and Nuclear Lipid Droplets

Structure Rigidification Promoted Ultrabright Solvatochromic Fluorescent Probes for Super-Resolution Imaging of Cytosolic and Nuclear Lipid Droplets

Optical Phenomena in Mesoscale Dielectric Particles

Optical phenomena in mesoscale dielectric particles

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