Abstract
The diffusion of poly(styrenesulfonate) sodium salt (NaPSS) was investigated using dialysis dynamic light scattering (DLS) and dialysis fluorescence photobleaching recovery (FPR). Never-dried or “virgin” NaPSS was synthesized directly from 4-styrenesulfonic sodium salt to achieve 100% sulfonation. Upon reducing the ionic strength directly in the DLS cell by dialysis, a clean sample developed clearly distinct fast and slow modes that were first identified as an extraordinary phase in low-salt solutions of poly-l-lysine by Lin, Lee, and Schurr [Biopolymers 1978, 17, 1041]. This result complements published polyelectrolyte investigations in a high-dielectric constant organic solvent, and also studies where the degree of ionization was tuned, which confirms that hydrophobic patches along the polymer chain are not required for the extraordinary behavior. The fast mode dominated even at low ionic strength, with scattering amplitude exceeding 70% of the total. For the virgin NaPSS sample in the dialysis cell, th...
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