Bulletin of the American Physical Society
2023 APS March Meeting
Volume 68, Number 3
Las Vegas, Nevada (March 5-10)
Virtual (March 20-22); Time Zone: Pacific Time
Session F15: Rheology and Mechanics of Polymers
8:00 AM–10:36 AM,
Tuesday, March 7, 2023
Room: Room 207
Sponsoring
Unit:
DPOLY
Chair: Konane Bay, Princeton University
Abstract: F15.00007 : Surface structure, mechanics and rheology of amphiphilic polymer conetworks on different length scales*
9:36 AM–9:48 AM
Presenter:
Kevin Hagmann
(Technische Universitat Darmstadt)
Authors:
Kevin Hagmann
(Technische Universitat Darmstadt)
Nora Fribiczer
(Department of Chemistry, Johannes Gutenberg University Mainz, D-55128 Mainz)
Sebastian Seiffert
(Department of Chemistry, Johannes Gutenberg University Mainz, D-55128 Mainz)
Carolin Bunk
(Leibniz-Institut für Polymerforschung Dresden e.V, D-01069 Dresden)
Frank Böhme
(Leibniz-Institut für Polymerforschung Dresden e.V., D-01069 Dresden)
Regine von Klitzing
(Institute for Condensed Matter Physics, Technische Universität Darmstadt)
Collaboration:
FOR2811: "Adaptive Polymer Gels with Model-Network Structure"
This study focuses on the relation between structure, swelling abilities and mechanical/rheological properties of films of ACNs.1,2 First, the correlation between different synthesis strategies for gel films and their resulting properties will be described. Secondly, the effect of solvents of different polarity on the swelling ability will be presented on different length scales. For this purpose, topology and near surface structure are studied with atomic force microscopy (AFM). We also put special emphasis on the determination of mechanical and rheological properties laterally and orthogonally to the gel surface by carrying out dynamic AFM indentation experiments. In order to evaluate heterogeneities the mechanical and rheological behavior at the interface of the ACNs will be presented on various length scales (nm - µm). The study shows that the synthesis strategy has a strong effect on the gel structure and on nano/microrheological properties. The structure and rheology of gel films will be compared with results obtained of the respective bulk gel phase.
*German Research Foundation (DFG)
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