4.8 Article

Control of Surface Morphology, Adhesion and Friction of Colloidal Gels with Lamellar Surface Interactions

期刊

ADVANCED FUNCTIONAL MATERIALS
卷 33, 期 29, 页码 -

出版社

WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.202300896

关键词

adhesion; colloidal gels; electrostatic interactions; electrotunability; friction; hydrogen bonding; poly(methacrylamide-co-methacrylic acid)

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The study investigates the semicrystalline colloidal gels composed of poly(methacrylamide-co-methacrylic acid) in water and reveals the influence of colloidal microstructure evolution on the gel's interfacial characteristics and underlying interactions. These interactions are crucial for the spatial and dynamic control of surface properties, and have implications for applications in biomedical devices, soft tissue design, soft robotics, and other engineered tribosystems.
Despite recent advances in polyelectrolyte systems, designing responsive hydrogel interfaces to meet application requirements still proves challenging. Here, semicrystalline colloidal gels composed of poly(methacrylamide-co-methacrylic acid) are investigated in water with storage moduli in the MPa range. A combination of SEM, X-ray scattering, and NMR reveals the evolution of the colloidal microstructure, crystallinity, and hydrogen bonding with varying monomer ratio. The gels with the finest colloidal microstructure exhibit the most dissipative rheological behavior and are selected for the study of their interfacial characteristics and underlying interactions. Microstructure stabilization and dynamics results from short-range (attractive) hydrogen bonding and hydrophobic forces, and long-range (repulsive) electrostatic interactions-the SALR pair potential. Further, the gel's surface exhibits a submicron colloidal topography that greatly determines (colloidal-like) friction as a result of the viscoelastic deformation of the colloidal network, while electrostatic near-surface interactions propagate in lamellar adhesion. The dynamic and reversible nature of the involved interactions introduces a stimulus responsive behavior that enables the electrotunability of adhesion and friction. This study advances the knowledge necessary to design complex hydrogel interfaces that enable spatial and dynamic control of surface properties, which is of relevance for applications in biomedical devices, soft tissue design, soft robotics, and other engineered tribosystems.

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