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Dr. Debashish Mukherji
Phone:+49 6131 379 167

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Prof. Dr. Kurt Kremer
Phone:+49 6131 379 141

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Original publication

1.
Debashish Mukherji, Carlos M. Marques, Torsten Stuehn & Kurt Kremer

Depleted depletion drives polymer swelling in poor solvent mixtures

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Polymers and alcohol: The story of competing depletion forces

November 14, 2017

Scientists at the Max Planck Institute for Polymer Research in Mainz, together with their collaborator Carlos Marques from the Centre National de la Recherche Scientifique (CNRS) in Strasbourg, France, have proposed a possible microscopic mechanism of polymer swelling in poor solvent mixtures. While the collapse of a polymer in poor solvent is well understood, the observed swelling of polymers in mixture of two poor, but miscible solvents seems paradoxical. By combining simulations and theoretical concepts, known from polymer physics and colloidal science, they have shown that the phenomenon of polymer swelling, within the intermediate mixing ratios of poor solvent mixtures, naturally emerges at ambient conditions, when an appropriate balance of the entropically driven depletion interactions is achieved. Their results and findings are published in the most recent issue of the scientific journal “Nature Communications".

In a standard poor solvent, polymers collapse when the solvent-monomer repulsion becomes larger than the monomer-monomer repulsion. This induces an effective attraction between monomers and results in a negative second virial coefficient between monomers. This attraction, known as depletion induced attraction, is well known from the colloidal science. However, when another poor cosolvents is added into the solution, e.g. alcohol to water, polymers can swell within intermediate mixing ratios of the poor solvents. This phenomenon is called co-solvency. A typical example is PMMA intoxicated by a water alcohol mixture. PMMA is insoluble in water as well as in pure alcohol, while it becomes better soluble in aqueous alcohol mixtures (at concentrations typical for many drinks).

<p>Swelling of a polymer chain within the intermediate mixing ratios of poor solvent mixtures.</p> Zoom Image

Swelling of a polymer chain within the intermediate mixing ratios of poor solvent mixtures.

They have shown that the swelling under co-solvency condition is a second order effect, originating from the fact that solvent and cosolvent deplete both monomer solvent, cosolvent contacts and at the same time deplete each other. These competing effects reduce (or deplete) the total depletion induced force between two monomers. Furthermore, even when the polymer swells within the intermediate mixing ratios, it does not open up to its fully extended coil conformation and remains in a state where the still globally collapsed polymer consists, however, of rather large theta-blobs.

This phenomenon, which was not understood until now, provides guiding principles for tuning and designing advanced functional `smart' polymeric materials. Additionally it also provides a first molecular level picture of penetration of certain solvent mixtures into polymer containers, an often destructive phenomenon known as case II diffusion. Case II diffusion results in stress buildup and cracks in polymeric containers exposed to solvents. “While starting from the rather special case of PMMA in water alcohol mixtures, we arrived at a rather generic scheme for the behavior of polymers in poor solvent mixtures as it is relevant for many technical problems, such those related to case II diffusion,” explains Kurt Kremer, director at the Max Planck Institute for Polymer Research.

 
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