Origin of the low-frequency plateau and the light-scattering slow mode in semidilute poly(ethylene glycol) solutions

Abstract

<p>The low-frequency plateau often found in the rheological spectra of semidilute polymer solutions is shown to be an artifact due to imprecise phase-angle determination; furthermore, the slow mode in the dynamic light scattering autocorrelation function of such solutions is shown to result from minor fractions of 20–200 nm sized impurities.</p>

Autoren

Martha Koziol
Karl Fischer
Sebastian Seiffert

DOI

10.1039/c8sm02263a

eISSN

1744-6848

ISSN

1744-683X

Ausgabe der Veröffentlichung

12

Zeitschrift

Soft Matter

Sprache

en

Online publication date

2019

Paginierung

2666 - 2676

Status

Published online

Herausgeber

Royal Society of Chemistry (RSC)

Herausgeber URL

http://dx.doi.org/10.1039/c8sm02263a

Datum der Datenerfassung

2024

Titel

Origin of the low-frequency plateau and the light-scattering slow mode in semidilute poly(ethylene glycol) solutions

Ausgabe der Zeitschrift

15

Data source: Crossref

Abstract

A low-frequency plateau is often found in the rheological spectra of various kinds of semidilute solutions of polymers and other colloids; also, many such solutions have been reported to show slow-modes in their dynamic light scattering autocorrelation functions. Both these observations may lead to the hypothesis of weak associative network structures built by the dissolved polymer chains or colloidal building blocks. To challenge this hypothesis, we conduct a series of comparative studies on semidilute solutions of poly(ethylene glycol) by using classical rheology as well as passive microrheology based on dynamic light scattering, along with structural studies using static light scattering. Although we indeed find a low-frequency plateau using classical shear rheology, even at elevated temperatures where potential polymer aggregates should be broken, no such plateau is observed in any of our microrheology experiments. Also, dynamic and static light scattering studies on the polymer solutions do not confirm the presence of larger structural entities: no slow mode can be detected in the autocorrelation function of the scattering intensity signal, and this signal is angle independent if the samples are purified by a thorough procedure of filtration. Based on these findings, we conclude that the low-frequency plateau in classical rheology results is an instrument effect caused by erroneous recording of the phase angle, although the magnitude of the torque lies well within the resolution of the rheometer. We also conclude that slow modes in dynamic light scattering on solutions of poly(ethylene glycol) are impurity-based artifacts rather than due to actual associated structures.

Addresses

Johannes Gutenberg-Universität Mainz, Institute of Physical Chemistry, Duesbergweg 10-14, D-55128 Mainz, Germany. sebastian.seiffert@uni-mainz.de.

Autoren

Martha Koziol
Karl Fischer
Sebastian Seiffert

DOI

10.1039/c8sm02263a

eISSN

1744-6848

Externe Identifier

PubMed Identifier: 30839030

Funding acknowledgements

Deutsche Forschungsgemeinschaft: SE 1888/7-1

Open access

false

ISSN

1744-683X

Ausgabe der Veröffentlichung

12

Zeitschrift

Soft matter

Sprache

eng

Medium

Print

Paginierung

2666 - 2676

Datum der Veröffentlichung

2019

Status

Published

Datum der Datenerfassung

2019

Titel

Origin of the low-frequency plateau and the light-scattering slow mode in semidilute poly(ethylene glycol) solutions.

Sub types

Journal Article

Ausgabe der Zeitschrift

15

Data source: Europe PubMed Central

Abstract

A low-frequency plateau is often found in the rheological spectra of various kinds of semidilute solutions of polymers and other colloids; also, many such solutions have been reported to show slow-modes in their dynamic light scattering autocorrelation functions. Both these observations may lead to the hypothesis of weak associative network structures built by the dissolved polymer chains or colloidal building blocks. To challenge this hypothesis, we conduct a series of comparative studies on semidilute solutions of poly(ethylene glycol) by using classical rheology as well as passive microrheology based on dynamic light scattering, along with structural studies using static light scattering. Although we indeed find a low-frequency plateau using classical shear rheology, even at elevated temperatures where potential polymer aggregates should be broken, no such plateau is observed in any of our microrheology experiments. Also, dynamic and static light scattering studies on the polymer solutions do not confirm the presence of larger structural entities: no slow mode can be detected in the autocorrelation function of the scattering intensity signal, and this signal is angle independent if the samples are purified by a thorough procedure of filtration. Based on these findings, we conclude that the low-frequency plateau in classical rheology results is an instrument effect caused by erroneous recording of the phase angle, although the magnitude of the torque lies well within the resolution of the rheometer. We also conclude that slow modes in dynamic light scattering on solutions of poly(ethylene glycol) are impurity-based artifacts rather than due to actual associated structures.

Autoren

Martha Koziol
Karl Fischer
Sebastian Seiffert

Autoren-URL

https://www.ncbi.nlm.nih.gov/pubmed/30839030

DOI

10.1039/c8sm02263a

eISSN

1744-6848

Ausgabe der Veröffentlichung

12

Zeitschrift

Soft Matter

Sprache

eng

Country

England

Paginierung

2666 - 2676

Datum der Veröffentlichung

2019

Status

Published

Datum, an dem der Datensatz öffentlich gemacht wurde

2019

Titel

Origin of the low-frequency plateau and the light-scattering slow mode in semidilute poly(ethylene glycol) solutions.

Sub types

Journal Article

Ausgabe der Zeitschrift

15

Data source: PubMed

Origin of the low-frequency plateau and the light-scattering slow mode in semidilute poly(ethylene glycol) solutions

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