Highly Conducting Lithium Polyelectrolytes Based on Maleic Anhydride−Styrene Copolymers

Unexpected effect of tetraglyme plasticizer on lithium ion dynamics in PAMPS based ionomers

Li⁺ cation conducting ionomers based on poly(2-acrylamido-2-methyl-1-propanesulphonic acid) (PAMPS) incorporating a low molecular weight plasticizer have been characterized.

Specific counterion repercussions on the thermal, pH-response, and electrochemical properties of side-chain leucine based chiral polyelectrolytes

Effects of counterions of side chain amino acid based polyelectrolytes (PEs) on the solubility in aqueous medium, pH responsiveness, thermal properties, and ionic conductivities have been appraised. Deprotection of the tert-butyl carbamate (Boc) group from poly(Boc-l-leucine methacryloyloxyethyl ester) [P(Boc-l-Leu-HEMA)] was carried out to produce PE with trifluoroacetate as an associative counteranion (1a). PEs with bis(trifluoromethylsulfonyl)imide and hexafluorophosphate counteranion were prepared through anion exchange reactions of 1a. Protonation of the neutralized polymer (2) obtained from 1a, followed by anion exchange, leads to the production of miscellaneous PEs bearing different counteranions, such as tetrafluoroborate, trifluoromethanesulfonate, chloride, and nitrate. Differential scanning calorimetry traces of the PEs reveal that the comparatively larger and weakly coordinated counteranions require less thermal energy to dissociate, and thus, the glass transition temperature (Tg) of the PEs fall off with an increase in the size of the counteranion. A remarkable conductivity of 2.1 mS/cm was obtained in deionized water when Cl(-) acted as the counteranion. Steric and electronic factors of the counteranion induce a change of transition pH in different PEs, although the chiroptical nature was retained, as confirmed by circular dichroism spectroscopy.

Sterically Crowded Anionic Polyelectrolytes with Tunable Charge Densities Based on Stilbene-Containing Copolymers

Anionic polyelectrolytes with various charge densities and a well-defined chain architecture have great industrial and fundamental importance. In this article, we describe the synthesis and characterization of new sterically crowded conformationally constrained anionic polyelectrolytes with tunable charge densities based on highly functionalized stilbene-maleic anhydride/maleimide comonomers. Polyelectrolyte precursors with tert-butyl carboxylate protecting groups are first prepared by radical polymerization and readily characterized by ¹H NMR, SEC, TGA, and DSC without the complications normally arising with charged macromolecules. The precursors are converted into their corresponding deblocked forms by simply reacting with trifluoroacetic acid to deprotect the tert-butyl group and then neutralized in basic aqueous solutions to yield anionic polyelectrolytes.