Relaxation Behavior by Time-Salt and Time-Temperature Superpositions of Polyelectrolyte Complexes from Coacervate to Precipitate

Relaxation Behavior by Time-Salt and Time-Temperature Superpositions of Polyelectrolyte Complexes from Coacervate to Precipitate

Complexation between anionic and cationic polyelectrolytes results in solid-like precipitates or liquid-like coacervate depending on the added salt in the aqueous medium. However, the boundary between these polymer-rich phases is quite broad and the associated changes in the polymer relaxation in th...

Full description

Bibliographic Details
Main Authors: Samim Ali, Vivek M. Prabhu
Format: Article
Language:English
Published: MDPI AG 2018-01-01
Series:Gels
Subjects:
coacervate
polyelectrolyte
rheology
sticky-Rouse
viscosity
Online Access:http://www.mdpi.com/2310-2861/4/1/11
id doaj-f3079fa24fc6413c9219622cfa371427
record_format Article
spelling doaj-f3079fa24fc6413c9219622cfa3714272020-11-25T00:44:52ZengMDPI AGGels2310-28612018-01-01411110.3390/gels4010011gels4010011Relaxation Behavior by Time-Salt and Time-Temperature Superpositions of Polyelectrolyte Complexes from Coacervate to PrecipitateSamim Ali0Vivek M. Prabhu1Material Measurement Laboratory, National Institute of Standards and Technology, 100 Bureau Drive, Gaithersburg, MD 20899, USAMaterial Measurement Laboratory, National Institute of Standards and Technology, 100 Bureau Drive, Gaithersburg, MD 20899, USAComplexation between anionic and cationic polyelectrolytes results in solid-like precipitates or liquid-like coacervate depending on the added salt in the aqueous medium. However, the boundary between these polymer-rich phases is quite broad and the associated changes in the polymer relaxation in the complexes across the transition regime are poorly understood. In this work, the relaxation dynamics of complexes across this transition is probed over a wide timescale by measuring viscoelastic spectra and zero-shear viscosities at varying temperatures and salt concentrations for two different salt types. We find that the complexes exhibit time-temperature superposition (TTS) at all salt concentrations, while the range of overlapped-frequencies for time-temperature-salt superposition (TTSS) strongly depends on the salt concentration (Cs) and gradually shifts to higher frequencies as Cs is decreased. The sticky-Rouse model describes the relaxation behavior at all Cs. However, collective relaxation of polyelectrolyte complexes gradually approaches a rubbery regime and eventually exhibits a gel-like response as Cs is decreased and limits the validity of TTSS.http://www.mdpi.com/2310-2861/4/1/11coacervatepolyelectrolyterheologysticky-Rouseviscosity
collection DOAJ
language English
format Article
sources DOAJ
author Samim Ali
Vivek M. Prabhu
spellingShingle Samim Ali
Vivek M. Prabhu
Relaxation Behavior by Time-Salt and Time-Temperature Superpositions of Polyelectrolyte Complexes from Coacervate to Precipitate
Gels
coacervate
polyelectrolyte
rheology
sticky-Rouse
viscosity
author_facet Samim Ali
Vivek M. Prabhu
author_sort Samim Ali
title Relaxation Behavior by Time-Salt and Time-Temperature Superpositions of Polyelectrolyte Complexes from Coacervate to Precipitate
title_short Relaxation Behavior by Time-Salt and Time-Temperature Superpositions of Polyelectrolyte Complexes from Coacervate to Precipitate
title_full Relaxation Behavior by Time-Salt and Time-Temperature Superpositions of Polyelectrolyte Complexes from Coacervate to Precipitate
title_fullStr Relaxation Behavior by Time-Salt and Time-Temperature Superpositions of Polyelectrolyte Complexes from Coacervate to Precipitate
title_full_unstemmed Relaxation Behavior by Time-Salt and Time-Temperature Superpositions of Polyelectrolyte Complexes from Coacervate to Precipitate
title_sort relaxation behavior by time-salt and time-temperature superpositions of polyelectrolyte complexes from coacervate to precipitate
publisher MDPI AG
series Gels
issn 2310-2861
publishDate 2018-01-01
description Complexation between anionic and cationic polyelectrolytes results in solid-like precipitates or liquid-like coacervate depending on the added salt in the aqueous medium. However, the boundary between these polymer-rich phases is quite broad and the associated changes in the polymer relaxation in the complexes across the transition regime are poorly understood. In this work, the relaxation dynamics of complexes across this transition is probed over a wide timescale by measuring viscoelastic spectra and zero-shear viscosities at varying temperatures and salt concentrations for two different salt types. We find that the complexes exhibit time-temperature superposition (TTS) at all salt concentrations, while the range of overlapped-frequencies for time-temperature-salt superposition (TTSS) strongly depends on the salt concentration (Cs) and gradually shifts to higher frequencies as Cs is decreased. The sticky-Rouse model describes the relaxation behavior at all Cs. However, collective relaxation of polyelectrolyte complexes gradually approaches a rubbery regime and eventually exhibits a gel-like response as Cs is decreased and limits the validity of TTSS.
topic coacervate
polyelectrolyte
rheology
sticky-Rouse
viscosity
url http://www.mdpi.com/2310-2861/4/1/11
work_keys_str_mv AT samimali relaxationbehaviorbytimesaltandtimetemperaturesuperpositionsofpolyelectrolytecomplexesfromcoacervatetoprecipitate
AT vivekmprabhu relaxationbehaviorbytimesaltandtimetemperaturesuperpositionsofpolyelectrolytecomplexesfromcoacervatetoprecipitate
_version_ 1725272754132877312

Similar Items