Shifting molecular localization by plasmonic coupling in a single-molecule mirage

Shifting molecular localization by plasmonic coupling in a single-molecule mirage

The near-field interaction of single emitters and plasmonic structures can alter the perceived physical location of the emitter. Here, Raabet al. use DNA origami and far-field super-resolution microscopy to quantitatively evaluate this localization offset for gold nanoparticles.

Bibliographic Details
Main Authors: Mario Raab, Carolin Vietz, Fernando Daniel Stefani, Guillermo Pedro Acuna, Philip Tinnefeld
Format: Article
Language:English
Published: Nature Publishing Group 2017-01-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms13966
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spelling doaj-1f4f0d67b79842098c150091b57eee9c2021-05-11T07:27:34ZengNature Publishing GroupNature Communications2041-17232017-01-01811610.1038/ncomms13966Shifting molecular localization by plasmonic coupling in a single-molecule mirageMario Raab0Carolin Vietz1Fernando Daniel Stefani2Guillermo Pedro Acuna3Philip Tinnefeld4Institute for Physical & Theoretical Chemistry, and Braunschweig Integrated Centre of Systems Biology (BRICS), and Laboratory for Emerging Nanometrology (LENA), Braunschweig University of TechnologyInstitute for Physical & Theoretical Chemistry, and Braunschweig Integrated Centre of Systems Biology (BRICS), and Laboratory for Emerging Nanometrology (LENA), Braunschweig University of TechnologyCentro de Investigaciones en Bionanociencias (CIBION), Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET)Institute for Physical & Theoretical Chemistry, and Braunschweig Integrated Centre of Systems Biology (BRICS), and Laboratory for Emerging Nanometrology (LENA), Braunschweig University of TechnologyInstitute for Physical & Theoretical Chemistry, and Braunschweig Integrated Centre of Systems Biology (BRICS), and Laboratory for Emerging Nanometrology (LENA), Braunschweig University of TechnologyThe near-field interaction of single emitters and plasmonic structures can alter the perceived physical location of the emitter. Here, Raabet al. use DNA origami and far-field super-resolution microscopy to quantitatively evaluate this localization offset for gold nanoparticles.https://doi.org/10.1038/ncomms13966
collection DOAJ
language English
format Article
sources DOAJ
author Mario Raab
Carolin Vietz
Fernando Daniel Stefani
Guillermo Pedro Acuna
Philip Tinnefeld
spellingShingle Mario Raab
Carolin Vietz
Fernando Daniel Stefani
Guillermo Pedro Acuna
Philip Tinnefeld
Shifting molecular localization by plasmonic coupling in a single-molecule mirage
Nature Communications
author_facet Mario Raab
Carolin Vietz
Fernando Daniel Stefani
Guillermo Pedro Acuna
Philip Tinnefeld
author_sort Mario Raab
title Shifting molecular localization by plasmonic coupling in a single-molecule mirage
title_short Shifting molecular localization by plasmonic coupling in a single-molecule mirage
title_full Shifting molecular localization by plasmonic coupling in a single-molecule mirage
title_fullStr Shifting molecular localization by plasmonic coupling in a single-molecule mirage
title_full_unstemmed Shifting molecular localization by plasmonic coupling in a single-molecule mirage
title_sort shifting molecular localization by plasmonic coupling in a single-molecule mirage
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2017-01-01
description The near-field interaction of single emitters and plasmonic structures can alter the perceived physical location of the emitter. Here, Raabet al. use DNA origami and far-field super-resolution microscopy to quantitatively evaluate this localization offset for gold nanoparticles.
url https://doi.org/10.1038/ncomms13966
work_keys_str_mv AT marioraab shiftingmolecularlocalizationbyplasmoniccouplinginasinglemoleculemirage
AT carolinvietz shiftingmolecularlocalizationbyplasmoniccouplinginasinglemoleculemirage
AT fernandodanielstefani shiftingmolecularlocalizationbyplasmoniccouplinginasinglemoleculemirage
AT guillermopedroacuna shiftingmolecularlocalizationbyplasmoniccouplinginasinglemoleculemirage
AT philiptinnefeld shiftingmolecularlocalizationbyplasmoniccouplinginasinglemoleculemirage
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