Structure formation of PNIPAM microgels in foams and foam films

Responsive aqueous foams are very interesting from a fundamental point of view and for various applications like foam flooding or foam flotation. In this study thermoresponsive microgels (MGs) made from poly( N -isopropyl-acrylamide) (PNIPAM) with varying cross-linker content, are used as foam stabi...

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Bibliographic Details
Published in:Soft matter 2022-12, Vol.18 (48), p.9249-9262
Main Authors: Kühnhammer, Matthias, Gräff, Kevin, Loran, Edwin, Soltwedel, Olaf, Löhmann, Oliver, Frielinghaus, Henrich, von Klitzing, Regine
Format: Article
Language:English
Subjects:
Acrylamide
Atomic force microscopy
Flotation
Foams
Indentation
Mechanical properties
Microgels
Modulus of elasticity
Neutron scattering
Thickness
Thin films
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Summary:Responsive aqueous foams are very interesting from a fundamental point of view and for various applications like foam flooding or foam flotation. In this study thermoresponsive microgels (MGs) made from poly( N -isopropyl-acrylamide) (PNIPAM) with varying cross-linker content, are used as foam stabilisers. The foams obtained are thermoresponsive and can be destabilised by increasing the temperature. The structuring of MGs inside the foam films is investigated with small-angle neutron scattering and in a thin film pressure balance. The foam films are inhomogeneous and form a network-like structure, in which thin and MG depleted zones with a thickness of ca. 30 nm are interspersed in a continuous network of thick MG containing areas with a thickness of several 100 nm. The thickness of this continuous network is related to the elastic modulus of the individual MGs, which was determined by atomic force microscopy indentation experiments. Both, the elastic moduli and foam film thicknesses, indicate a correlation to the network elasticity of the MGs predicted by the affine network model. PNIPAM microgels form inhomogeneous network-like structures with microgel depleted and microgel bearing zones when confined in foam films.
ISSN:1744-683X
1744-6848
1744-6848
DOI:10.1039/d2sm01021f