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Pivotal Roles of Triple Screening-Topological, Electrostatic, and Hydrodynamic-On Dynamics in Semidilute Polyelectrolyte Solutions

Rajeev Kumar, Ali H. Slim, Antonio Faraone, Jan‐Michael Y. Carrillo, Ryan Poling‐Skutvik, M. Muthukumar, Amanda B. Marciel, Jacinta C. Conrad

2024Macromolecules10 citationsDOIOpen Access PDF

Abstract

For semidilute polyelectrolyte solutions, it is generally assumed that topological, electrostatic, and hydrodynamic interactions are screened (called triple screening). Despite a large body of research focused on polyelectrolyte solutions, the concept of triple screening has never been rigorously verified. In this work, we test the concept by probing concentration fluctuations in aqueous solutions containing a well-studied polyelectrolyte, sodium poly(styrenesulfonate) (NaPSS) with neutron scattering, theory, and molecular dynamics simulations. Neutron spin–echo (NSE) and small-angle neutron scattering (SANS) data from semidilute solutions of NaPSS are presented at different polymer and salt (NaCl) concentrations. A combined theory for structure ( J. Chem. Phys. 105, 5183 (1996)) and dynamics ( J. Chem. Phys. 107, 2619 (1997)), which captures effects of hydrodynamic, topological, and electrostatic screening, is used to interpret the experimental results. The theory quantitatively predicts the decay rate obtained from the NSE measurements while capturing the shape and concentration dependencies of the polyelectrolyte peak observed in the SANS spectra. Detailed comparisons of the theory and the experiments reveal that the wavevector-dependent decay rate of concentration fluctuations in semidilute solutions of polyelectrolytes is dictated by the screening of hydrodynamic, topological, and electrostatic interactions. This conclusion is corroborated by coarse-grained molecular dynamics simulations, executed without any hydrodynamic interactions, which fail to capture the correct wavevector dependence of the decay rate. These results highlight that the theories based on the concept of triple screening provide a quantitative framework for predicting a relation between the structure and dynamics of polyelectrolyte solutions.

Topics & Concepts

PolyelectrolyteNeutron scatteringChemical physicsChemistryNeutron spin echoWork (physics)Molecular dynamicsWave vectorScatteringAqueous solutionStatistical physicsThermodynamicsPhysicsPolymerSmall-angle neutron scatteringPhysical chemistryComputational chemistryCondensed matter physicsOpticsOrganic chemistryElectrostatics and Colloid InteractionsNanopore and Nanochannel Transport StudiesSpectroscopy and Quantum Chemical Studies