Overcoming evanescent field decay using 3D-tapered nanocavities for on-chip targeted molecular analysis

Plasmon-enhanced fluorescence is strictly dependent on molecule size and surface position, restricting application of diversely sized molecules. Here, the authors overcome this by introducing a 3D tapered gap plasmon nanocavity with fluidic access and near homogeneous confinement of the electromagne...

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Autores principales: Shailabh Kumar, Haeri Park, Hyunjun Cho, Radwanul H. Siddique, Vinayak Narasimhan, Daejong Yang, Hyuck Choo
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/1f5d6e01c98949dc9650b9050f829c1b
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spelling oai:doaj.org-article:1f5d6e01c98949dc9650b9050f829c1b2021-12-02T17:34:47ZOvercoming evanescent field decay using 3D-tapered nanocavities for on-chip targeted molecular analysis10.1038/s41467-020-16813-52041-1723https://doaj.org/article/1f5d6e01c98949dc9650b9050f829c1b2020-06-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-16813-5https://doaj.org/toc/2041-1723Plasmon-enhanced fluorescence is strictly dependent on molecule size and surface position, restricting application of diversely sized molecules. Here, the authors overcome this by introducing a 3D tapered gap plasmon nanocavity with fluidic access and near homogeneous confinement of the electromagnetic fields.Shailabh KumarHaeri ParkHyunjun ChoRadwanul H. SiddiqueVinayak NarasimhanDaejong YangHyuck ChooNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-9 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Shailabh Kumar
Haeri Park
Hyunjun Cho
Radwanul H. Siddique
Vinayak Narasimhan
Daejong Yang
Hyuck Choo
Overcoming evanescent field decay using 3D-tapered nanocavities for on-chip targeted molecular analysis
description Plasmon-enhanced fluorescence is strictly dependent on molecule size and surface position, restricting application of diversely sized molecules. Here, the authors overcome this by introducing a 3D tapered gap plasmon nanocavity with fluidic access and near homogeneous confinement of the electromagnetic fields.
format article
author Shailabh Kumar
Haeri Park
Hyunjun Cho
Radwanul H. Siddique
Vinayak Narasimhan
Daejong Yang
Hyuck Choo
author_facet Shailabh Kumar
Haeri Park
Hyunjun Cho
Radwanul H. Siddique
Vinayak Narasimhan
Daejong Yang
Hyuck Choo
author_sort Shailabh Kumar
title Overcoming evanescent field decay using 3D-tapered nanocavities for on-chip targeted molecular analysis
title_short Overcoming evanescent field decay using 3D-tapered nanocavities for on-chip targeted molecular analysis
title_full Overcoming evanescent field decay using 3D-tapered nanocavities for on-chip targeted molecular analysis
title_fullStr Overcoming evanescent field decay using 3D-tapered nanocavities for on-chip targeted molecular analysis
title_full_unstemmed Overcoming evanescent field decay using 3D-tapered nanocavities for on-chip targeted molecular analysis
title_sort overcoming evanescent field decay using 3d-tapered nanocavities for on-chip targeted molecular analysis
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/1f5d6e01c98949dc9650b9050f829c1b
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AT hyunjuncho overcomingevanescentfielddecayusing3dtaperednanocavitiesforonchiptargetedmolecularanalysis
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AT vinayaknarasimhan overcomingevanescentfielddecayusing3dtaperednanocavitiesforonchiptargetedmolecularanalysis
AT daejongyang overcomingevanescentfielddecayusing3dtaperednanocavitiesforonchiptargetedmolecularanalysis
AT hyuckchoo overcomingevanescentfielddecayusing3dtaperednanocavitiesforonchiptargetedmolecularanalysis
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