Ionic and pH effects on the osmotic properties and structure of polyelectrolyte gels

## Abstract The roles of pH and ionic strength on the structure and stability of collagen fibrils have been investigated by means of x‐ray and neutron diffraction techniques. High‐angle x‐ray diffraction shows that a salt concentration of 0.5__M__ KCl is sufficient to reduce the osmotic swelling an

## Abstract Aqueous gels can be made by heating concentrated solutions of the globular protein BSA above its unfolding temperature, around 60°. The effect of such factors as length of heating, protein concentration, pH and ionic strength on the small deformation shear modulus of the gel is determin

Electrolytes are often added to a gel-swelling medium under the assumption that the important conditions which characterize swelling rates are the solution pH and ionic strength, with little emphasis on the nature of the electrolyte. Previous research by Siege1 et al. has indicated that the presence

Bis(4-acylaminophenyl)methane (G1) and bis(4-acylaminophenyl)ether (G2) with varied acyl chains were found to be efficient gelators for the gelation of imidazole-based ionic liquids. The supramolecular gel electrolytes were formed via the self-assembly of these gelators in ionic liquids. The minimum