Rheology of transient networks containing hydrophobically modified cellulose, anionic surfactant and colloidal silica: Role of selective adsorption

K. Derek Berglund; My T. Truong; Todd M. Przybycien; Robert D. Tilton; Lynn M. Walker

doi:10.1007/s00397-003-0319-6

Rheology of transient networks containing hydrophobically modified cellulose, anionic surfactant and colloidal silica: Role of selective adsorption

K. Derek Berglund, My T. Truong, Todd M. Przybycien, Robert D. Tilton, Lynn M. Walker

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Rheology and adsorption studies are performed on a model multicomponent system of hydrophobically modified cellulose (hmHEC), anionic surfactant (SDS), and negatively charged silica. Optical reflectometry measurements on silica quantify the total adsorbed mass from polymer-surfactant mixtures and indicate that the adsorption is irreversible. Linear and nonlinear rheological measurements show that the addition of colloidal silica to polymer-surfactant mixtures leads to complex and unexpected changes in behavior that cannot be explained simply as depletion of the bulk solution via adsorption to the colloidal surface. Instead, the combination of rheology and adsorption measurements indicates that the colloidal silica becomes an integral part of the transient network shifting the dynamics of the system.

Original language	English (US)
Pages (from-to)	50-61
Number of pages	12
Journal	Rheologica Acta
Volume	43
Issue number	1
DOIs	https://doi.org/10.1007/s00397-003-0319-6
State	Published - Feb 2004
Externally published	Yes

Keywords

Associative thickener
Co-adsorption
Colloid
Surfactant
Temporary networks

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10.1007/s00397-003-0319-6

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abstract = "Rheology and adsorption studies are performed on a model multicomponent system of hydrophobically modified cellulose (hmHEC), anionic surfactant (SDS), and negatively charged silica. Optical reflectometry measurements on silica quantify the total adsorbed mass from polymer-surfactant mixtures and indicate that the adsorption is irreversible. Linear and nonlinear rheological measurements show that the addition of colloidal silica to polymer-surfactant mixtures leads to complex and unexpected changes in behavior that cannot be explained simply as depletion of the bulk solution via adsorption to the colloidal surface. Instead, the combination of rheology and adsorption measurements indicates that the colloidal silica becomes an integral part of the transient network shifting the dynamics of the system.",

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TY - JOUR

T1 - Rheology of transient networks containing hydrophobically modified cellulose, anionic surfactant and colloidal silica

T2 - Role of selective adsorption

AU - Berglund, K. Derek

AU - Truong, My T.

AU - Przybycien, Todd M.

AU - Tilton, Robert D.

AU - Walker, Lynn M.

PY - 2004/2

Y1 - 2004/2

N2 - Rheology and adsorption studies are performed on a model multicomponent system of hydrophobically modified cellulose (hmHEC), anionic surfactant (SDS), and negatively charged silica. Optical reflectometry measurements on silica quantify the total adsorbed mass from polymer-surfactant mixtures and indicate that the adsorption is irreversible. Linear and nonlinear rheological measurements show that the addition of colloidal silica to polymer-surfactant mixtures leads to complex and unexpected changes in behavior that cannot be explained simply as depletion of the bulk solution via adsorption to the colloidal surface. Instead, the combination of rheology and adsorption measurements indicates that the colloidal silica becomes an integral part of the transient network shifting the dynamics of the system.

AB - Rheology and adsorption studies are performed on a model multicomponent system of hydrophobically modified cellulose (hmHEC), anionic surfactant (SDS), and negatively charged silica. Optical reflectometry measurements on silica quantify the total adsorbed mass from polymer-surfactant mixtures and indicate that the adsorption is irreversible. Linear and nonlinear rheological measurements show that the addition of colloidal silica to polymer-surfactant mixtures leads to complex and unexpected changes in behavior that cannot be explained simply as depletion of the bulk solution via adsorption to the colloidal surface. Instead, the combination of rheology and adsorption measurements indicates that the colloidal silica becomes an integral part of the transient network shifting the dynamics of the system.

KW - Associative thickener

KW - Co-adsorption

KW - Colloid

KW - Surfactant

KW - Temporary networks

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Rheology of transient networks containing hydrophobically modified cellulose, anionic surfactant and colloidal silica: Role of selective adsorption

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