Extraordinary Transmission‐based Plasmonic Nanoarrays for Axially Super‐Resolved Cell Imaging

Choi, Jong-ryul; Kim, Kyujung; Oh, Young-Jin; Kim, Ah Leum; Kim, Sook Young; Shin, Jeon Soo; Kim, Dong-Hyun

doi:10.1002/adom.201300330

Cited by 62 publications

(19 citation statements)

References 56 publications

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“…Finally, the axial distance information of ganglioside was distinguished over a depth range of 500 nm with a resolution between 20 and 125 nm. The results were confirmed at a reduced image resolution by conventional fluorescence imaging such as total internal reflection fluorescence and confocal microscopy [17]. …”

Section: Resultsmentioning

confidence: 63%

Extraordinary transmission-based super-resolved axial imaging using subwavelength metallic nanoaperture arrays

Lee

Choi

et al. 2015

Nanoscale Imaging, Sensing, and Actuation for Biomedical Applications XII

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A super-resolved axial imaging technique was investigated based on extraordinary transmission (EOT) of light using metallic gradient nanoaperture arrays. Light through subwavelength nanoapertures at thick metal film can be transmitted and amplified by several orders of magnitude due to plasmonic coupling. Here, the feasibility of EOT-based axial imaging with super resolution is explored. Since light penetration of EOT is much deeper than that of evanescent waves, the axial range to obtain the distance information of fluorescence signals can be extended by EOT. The axial distribution of ganglioside in mouse macrophage cells was measured with sub-diffraction-limited resolution after reconstruction using differential fluorescence excitation on gradient aperture arrays.

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Section: Resultsmentioning

confidence: 63%

Extraordinary transmission-based super-resolved axial imaging using subwavelength metallic nanoaperture arrays

Lee

Choi

et al. 2015

Nanoscale Imaging, Sensing, and Actuation for Biomedical Applications XII

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“…The emergence of Extraordinary Optical Transmission (EOT) [9] due to coupling of surface plasmons in a surface lattice has been a breakthrough. It has been widely used and its applications include drug delivery [125], imaging [126,127], color filtering [128,129], high resolution display [130] and high sensitive sensing [131,132]. Since the research in the field of plasmonics is expedited with the discovery of new materials and design fabrication techniques [72,92,133], this review focuses on and evaluates those developments.…”

Section: Localized Surface Plasmonic Resonancesmentioning

confidence: 99%

Nanostructured Color Filters: A Review of Recent Developments

2020

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Color plays an important role in human life: without it life would be dull and monochromatic. Printing color with distinct characteristics, like hue, brightness and saturation, and high resolution, are the main characteristic of image sensing devices. A flexible design of color filter is also desired for angle insensitivity and independence of direction of polarization of incident light. Furthermore, it is important that the designed filter be compatible with the image sensing devices in terms of technology and size. Therefore, color filter requires special care in its design, operation and integration. In this paper, we present a comprehensive review of nanostructured color filter designs described to date and evaluate them in terms of their performance.

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“…Also, structured illumination microscopy attained superresolution with modulation and reconstruction at carrier spatial frequency [4]. On the other hand, plasmonic nanostructures have been investigated for improved resolution with localized near-fields in the far field [5][6][7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Surface-plasmon enhanced microscopy using blocked silver nanodot arrays

Son

Lee

et al. 2015

2015 Opto-Electronics and Communications Conference (OECC)

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Surface-plasmon enhanced microscopy has been investigated using blocked random nanodot arrays. J744 cells were imaged on blocked nanodot arrays under total internal reflection. The images were deconvolved based on localized nearfield distribution for super-resolution. Experimentally achieved resolution is estimated to be 100-150 nm. Effects of signal-tonoise and registration on the reconstructed images are discussed.

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Extraordinary Transmission‐based Plasmonic Nanoarrays for Axially Super‐Resolved Cell Imaging

Cited by 62 publications

References 56 publications

Extraordinary transmission-based super-resolved axial imaging using subwavelength metallic nanoaperture arrays

Extraordinary transmission-based super-resolved axial imaging using subwavelength metallic nanoaperture arrays

Nanostructured Color Filters: A Review of Recent Developments

Surface-plasmon enhanced microscopy using blocked silver nanodot arrays

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