Effects of Charge Density on Photophysics and Aggregation Behavior of Anionic Fluorene-Arylene Conjugated Polyelectrolytes

Effects of Charge Density on Photophysics and Aggregation Behavior of Anionic Fluorene-Arylene Conjugated Polyelectrolytes

Three anionic fluorene-based alternating conjugated polyelectrolytes (CPEs) have been synthesized that have 9,9-bis(4-phenoxy-butylsulfonate) fluorene-2,7-diyl and 1,4-phenylene (PBS-PFP), 4,4′-biphenylene (PBS-PFP2), or 4,4″-p-terphenylene (PBS-PFP3) groups, and the effect of the length of the olig...

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Main Authors: Liliana M. Martelo, Sofia M. Fonseca, Ana T. Marques, Hugh D. Burrows, Artur J. M. Valente, Licínia L. G. Justino, Ullrich Scherf, Swapna Pradhan, Qiu Song
Format: Article
Language:English
Published: MDPI AG 2018-03-01
Series:Polymers
Subjects:
conjugated polyelectrolytes
aggregation
fluorene-phenylene copolymers
photophysics
Online Access:http://www.mdpi.com/2073-4360/10/3/258
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spelling doaj-e5a7f5f2cef64a0797c3a3c143dcf3052020-11-24T23:19:40ZengMDPI AGPolymers2073-43602018-03-0110325810.3390/polym10030258polym10030258Effects of Charge Density on Photophysics and Aggregation Behavior of Anionic Fluorene-Arylene Conjugated PolyelectrolytesLiliana M. Martelo0Sofia M. Fonseca1Ana T. Marques2Hugh D. Burrows3Artur J. M. Valente4Licínia L. G. Justino5Ullrich Scherf6Swapna Pradhan7Qiu Song8Departamento de Química, Universidade de Coimbra, 3004-535 Coimbra, PortugalDepartamento de Química, Universidade de Coimbra, 3004-535 Coimbra, PortugalMakromolekulare Chemie, Bergische Universität Wuppertal, DE-42097 Wuppertal, GermanyDepartamento de Química, Universidade de Coimbra, 3004-535 Coimbra, PortugalDepartamento de Química, Universidade de Coimbra, 3004-535 Coimbra, PortugalDepartamento de Química, Universidade de Coimbra, 3004-535 Coimbra, PortugalMakromolekulare Chemie, Bergische Universität Wuppertal, DE-42097 Wuppertal, GermanyMakromolekulare Chemie, Bergische Universität Wuppertal, DE-42097 Wuppertal, GermanyMakromolekulare Chemie, Bergische Universität Wuppertal, DE-42097 Wuppertal, GermanyThree anionic fluorene-based alternating conjugated polyelectrolytes (CPEs) have been synthesized that have 9,9-bis(4-phenoxy-butylsulfonate) fluorene-2,7-diyl and 1,4-phenylene (PBS-PFP), 4,4′-biphenylene (PBS-PFP2), or 4,4″-p-terphenylene (PBS-PFP3) groups, and the effect of the length of the oligophenylene spacer on their aggregation and photophysics has been studied. All form metastable dispersions in water, but can be solubilized using methanol, acetonitrile, or dioxane as cosolvents. This leads to increases in their emission intensities and blue shifts in fluorescence maxima due to break-up of aggregates. In addition, the emission maximum shifts to the blue and the loss of vibronic structure are observed when the number of phenylene rings is increased. Debsity Functional Theory (DFT) calculations suggest that this is due to increasing conformational flexibility as the number of phenylene rings increases. This is supported by increasing amplitude in the fast component in the fluorescence decay. The nonionic surfactant n-dodecylpentaoxyethylene glycol ether (C12E5) also breaks up aggregates, as seen by changes in fluorescence intensity and maximum. However, the loss in vibrational structure is less pronounced in this case, possibly due to a more rigid environment in the mixed surfactant-CPE aggregates. Further information on the aggregates formed with C12E5 was obtained by electrical conductivity measurements, which showed an initial increase in specific conductivity upon addition of surfactants, while at higher surfactant/CPE molar ratios a plateau was observed. The specific conductance in the plateau region decreased in the order PBS-PFP3 < PBS-PFP2 < PBS-PFP, in agreement with the change in charge density on the CPE. The reverse process of aggregate formation has been studied by injecting small volumes of solutions of CPEs dissolved at the molecular level in a good solvent system (50% methanol-water) into the poor solvent, water. Aggregation was monitored by changes in both fluorescence and light scattering. The rate of aggregation increases with hydrophobicity and concentration of sodium chloride but is only weakly dependent on temperature.http://www.mdpi.com/2073-4360/10/3/258conjugated polyelectrolytesaggregationfluorene-phenylene copolymersphotophysics
collection DOAJ
language English
format Article
sources DOAJ
author Liliana M. Martelo
Sofia M. Fonseca
Ana T. Marques
Hugh D. Burrows
Artur J. M. Valente
Licínia L. G. Justino
Ullrich Scherf
Swapna Pradhan
Qiu Song
spellingShingle Liliana M. Martelo
Sofia M. Fonseca
Ana T. Marques
Hugh D. Burrows
Artur J. M. Valente
Licínia L. G. Justino
Ullrich Scherf
Swapna Pradhan
Qiu Song
Effects of Charge Density on Photophysics and Aggregation Behavior of Anionic Fluorene-Arylene Conjugated Polyelectrolytes
Polymers
conjugated polyelectrolytes
aggregation
fluorene-phenylene copolymers
photophysics
author_facet Liliana M. Martelo
Sofia M. Fonseca
Ana T. Marques
Hugh D. Burrows
Artur J. M. Valente
Licínia L. G. Justino
Ullrich Scherf
Swapna Pradhan
Qiu Song
author_sort Liliana M. Martelo
title Effects of Charge Density on Photophysics and Aggregation Behavior of Anionic Fluorene-Arylene Conjugated Polyelectrolytes
title_short Effects of Charge Density on Photophysics and Aggregation Behavior of Anionic Fluorene-Arylene Conjugated Polyelectrolytes
title_full Effects of Charge Density on Photophysics and Aggregation Behavior of Anionic Fluorene-Arylene Conjugated Polyelectrolytes
title_fullStr Effects of Charge Density on Photophysics and Aggregation Behavior of Anionic Fluorene-Arylene Conjugated Polyelectrolytes
title_full_unstemmed Effects of Charge Density on Photophysics and Aggregation Behavior of Anionic Fluorene-Arylene Conjugated Polyelectrolytes
title_sort effects of charge density on photophysics and aggregation behavior of anionic fluorene-arylene conjugated polyelectrolytes
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2018-03-01
description Three anionic fluorene-based alternating conjugated polyelectrolytes (CPEs) have been synthesized that have 9,9-bis(4-phenoxy-butylsulfonate) fluorene-2,7-diyl and 1,4-phenylene (PBS-PFP), 4,4′-biphenylene (PBS-PFP2), or 4,4″-p-terphenylene (PBS-PFP3) groups, and the effect of the length of the oligophenylene spacer on their aggregation and photophysics has been studied. All form metastable dispersions in water, but can be solubilized using methanol, acetonitrile, or dioxane as cosolvents. This leads to increases in their emission intensities and blue shifts in fluorescence maxima due to break-up of aggregates. In addition, the emission maximum shifts to the blue and the loss of vibronic structure are observed when the number of phenylene rings is increased. Debsity Functional Theory (DFT) calculations suggest that this is due to increasing conformational flexibility as the number of phenylene rings increases. This is supported by increasing amplitude in the fast component in the fluorescence decay. The nonionic surfactant n-dodecylpentaoxyethylene glycol ether (C12E5) also breaks up aggregates, as seen by changes in fluorescence intensity and maximum. However, the loss in vibrational structure is less pronounced in this case, possibly due to a more rigid environment in the mixed surfactant-CPE aggregates. Further information on the aggregates formed with C12E5 was obtained by electrical conductivity measurements, which showed an initial increase in specific conductivity upon addition of surfactants, while at higher surfactant/CPE molar ratios a plateau was observed. The specific conductance in the plateau region decreased in the order PBS-PFP3 < PBS-PFP2 < PBS-PFP, in agreement with the change in charge density on the CPE. The reverse process of aggregate formation has been studied by injecting small volumes of solutions of CPEs dissolved at the molecular level in a good solvent system (50% methanol-water) into the poor solvent, water. Aggregation was monitored by changes in both fluorescence and light scattering. The rate of aggregation increases with hydrophobicity and concentration of sodium chloride but is only weakly dependent on temperature.
topic conjugated polyelectrolytes
aggregation
fluorene-phenylene copolymers
photophysics
url http://www.mdpi.com/2073-4360/10/3/258
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