Photoswitchable semiconductor nanocrystals with self-regulating photochromic Förster resonance energy transfer acceptors

Photoswitchable molecules and nanoparticles constitute superior biosensors for a wide range of industrial, research and biomedical applications. Rendered reversible by spontaneous or deterministic means, such probes facilitate many of the techniques in fluorescence microscopy that surpass the optica...

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Autores principales: Díaz, S.A., Gillanders, F., Jares-Erijman, E.A., Jovin, T.M.
Formato: JOUR
Materias:
nanorod
polymer
quantum dot
crystal structure
probe
quantum mechanics
resonance
semiconductor industry
Article
fluorescence resonance energy transfer
light absorption
photoactivation
quantum yield
regulatory mechanism
surface property
ultraviolet radiation
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_20411723_v6_n_p_Diaz
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_20411723_v6_n_p_Diaz
record_format dspace
spelling todo:paper_20411723_v6_n_p_Diaz2023-10-03T16:37:52Z Photoswitchable semiconductor nanocrystals with self-regulating photochromic Förster resonance energy transfer acceptors Díaz, S.A. Gillanders, F. Jares-Erijman, E.A. Jovin, T.M. nanorod polymer quantum dot crystal structure polymer probe quantum mechanics resonance semiconductor industry Article fluorescence resonance energy transfer light absorption photoactivation quantum yield regulatory mechanism surface property ultraviolet radiation Photoswitchable molecules and nanoparticles constitute superior biosensors for a wide range of industrial, research and biomedical applications. Rendered reversible by spontaneous or deterministic means, such probes facilitate many of the techniques in fluorescence microscopy that surpass the optical resolution dictated by diffraction. Here we have devised a family of photoswitchable quantum dots (psQDs) in which the semiconductor core functions as a fluorescence donor in Förster resonance energy transfer (FRET), and multiple photochromic diheteroarylethene groups function as acceptors upon activation by ultraviolet light. The QDs were coated with a polymer bearing photochromic groups attached via linkers of different length. Despite the resulting nominal differences in donor-acceptor separation and anticipated FRET efficiencies, the maximum quenching of all psQD preparations was 38±2%. This result was attributable to the large ultraviolet absorption cross-section of the QDs, leading to preferential cycloreversion of photochromic groups situated closer to the nanoparticle surface and/or with a more favourable orientation. © 2015 Macmillan Publishers Limited. All rights reserved. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_20411723_v6_n_p_Diaz
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic nanorod
polymer
quantum dot
crystal structure
polymer
probe
quantum mechanics
resonance
semiconductor industry
Article
fluorescence resonance energy transfer
light absorption
photoactivation
quantum yield
regulatory mechanism
surface property
ultraviolet radiation
spellingShingle nanorod
polymer
quantum dot
crystal structure
polymer
probe
quantum mechanics
resonance
semiconductor industry
Article
fluorescence resonance energy transfer
light absorption
photoactivation
quantum yield
regulatory mechanism
surface property
ultraviolet radiation
Díaz, S.A.
Gillanders, F.
Jares-Erijman, E.A.
Jovin, T.M.
Photoswitchable semiconductor nanocrystals with self-regulating photochromic Förster resonance energy transfer acceptors
topic_facet nanorod
polymer
quantum dot
crystal structure
polymer
probe
quantum mechanics
resonance
semiconductor industry
Article
fluorescence resonance energy transfer
light absorption
photoactivation
quantum yield
regulatory mechanism
surface property
ultraviolet radiation
description Photoswitchable molecules and nanoparticles constitute superior biosensors for a wide range of industrial, research and biomedical applications. Rendered reversible by spontaneous or deterministic means, such probes facilitate many of the techniques in fluorescence microscopy that surpass the optical resolution dictated by diffraction. Here we have devised a family of photoswitchable quantum dots (psQDs) in which the semiconductor core functions as a fluorescence donor in Förster resonance energy transfer (FRET), and multiple photochromic diheteroarylethene groups function as acceptors upon activation by ultraviolet light. The QDs were coated with a polymer bearing photochromic groups attached via linkers of different length. Despite the resulting nominal differences in donor-acceptor separation and anticipated FRET efficiencies, the maximum quenching of all psQD preparations was 38±2%. This result was attributable to the large ultraviolet absorption cross-section of the QDs, leading to preferential cycloreversion of photochromic groups situated closer to the nanoparticle surface and/or with a more favourable orientation. © 2015 Macmillan Publishers Limited. All rights reserved.
format JOUR
author Díaz, S.A.
Gillanders, F.
Jares-Erijman, E.A.
Jovin, T.M.
author_facet Díaz, S.A.
Gillanders, F.
Jares-Erijman, E.A.
Jovin, T.M.
author_sort Díaz, S.A.
title Photoswitchable semiconductor nanocrystals with self-regulating photochromic Förster resonance energy transfer acceptors
title_short Photoswitchable semiconductor nanocrystals with self-regulating photochromic Förster resonance energy transfer acceptors
title_full Photoswitchable semiconductor nanocrystals with self-regulating photochromic Förster resonance energy transfer acceptors
title_fullStr Photoswitchable semiconductor nanocrystals with self-regulating photochromic Förster resonance energy transfer acceptors
title_full_unstemmed Photoswitchable semiconductor nanocrystals with self-regulating photochromic Förster resonance energy transfer acceptors
title_sort photoswitchable semiconductor nanocrystals with self-regulating photochromic förster resonance energy transfer acceptors
url http://hdl.handle.net/20.500.12110/paper_20411723_v6_n_p_Diaz
work_keys_str_mv AT diazsa photoswitchablesemiconductornanocrystalswithselfregulatingphotochromicforsterresonanceenergytransferacceptors
AT gillandersf photoswitchablesemiconductornanocrystalswithselfregulatingphotochromicforsterresonanceenergytransferacceptors
AT jareserijmanea photoswitchablesemiconductornanocrystalswithselfregulatingphotochromicforsterresonanceenergytransferacceptors
AT jovintm photoswitchablesemiconductornanocrystalswithselfregulatingphotochromicforsterresonanceenergytransferacceptors
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