Phosphonium versus Ammonium Compact Polyelectrolyte Complex Networks with Alginate—Comparing Their Properties and Cargo Encapsulation

Abstract: Phosphonium and ammonium polymers can be combined with polyanions to form polyelectrolyte complex (PEC) networks, with potential application in self-healing materials and drug delivery vehicles. While various structures and compositions have been explored, to the best of our knowledge, analogous ammonium and phosphonium networks have not been directly compared to evaluate the effects of phosphorus versus nitrogen cations on the network properties. In this study, we prepared PECs from sodium alginate and poly­[… Show more

“…Conversely, we reported on a dramatic increase in the porosity of PAH/PMAA COPECS following Na + to Cu 2+ cation exchange by complexation in the gel, enabling the in situ synthesis of catalytic nanoparticles [ 8 ]. The incorporation of biocompatible weak polyelectrolytes (e.g., CHI, ALG) and their cyclodextrin-grafted derivatives has attracted a great deal of attention in the field of biomaterial design [ 161 , 162 , 163 ].…”

Weak Polyelectrolytes as Nanoarchitectonic Design Tools for Functional Materials: A Review of Recent Achievements

“…Conversely, we reported on a dramatic increase in the porosity of PAH/PMAA COPECS following Na + to Cu 2+ cation exchange by complexation in the gel, enabling the in situ synthesis of catalytic nanoparticles [ 8 ]. The incorporation of biocompatible weak polyelectrolytes (e.g., CHI, ALG) and their cyclodextrin-grafted derivatives has attracted a great deal of attention in the field of biomaterial design [ 161 , 162 , 163 ].…”

Weak Polyelectrolytes as Nanoarchitectonic Design Tools for Functional Materials: A Review of Recent Achievements

A reactive nitrile-rich phosphonium polyelectrolyte derived from toxic PH3 tail gas: Synthesis, post-polymerization modifications, and unexpected LCST behaviour in DMF solution

PAEK- and PES-like perarylated phosphonium ionenes: Synthesis, thermal properties, and conductivity