Publication | Closed Access
Fully charged: Maximizing the potential of cationic polyelectrolytes in applications ranging from membranes to gene delivery through rational design
18
Citations
54
References
2017
Year
Membrane StructureMacromolecular ChemistryEngineeringCationic PolyelectrolytesResponsive PolymersPolyelectrolyte GelGene DeliveryChemistryPolymersMacromolecular EngineeringRational DesignHybrid MaterialsPolymer ChemistryAbstract PolyelectrolytesAnion Exchange MembranesSynthetic MacromoleculeBiopolymersMolecular EngineeringBiomolecular EngineeringMembrane FormationRational ManipulationPolymer Science
ABSTRACT Polyelectrolytes have found utility across various applications in materials science, from electrochemical devices to biotechnology, due to their facile processing and tunable properties. Through chemistry, rational manipulation of molecular structure enables individual families of polyelectrolytes to be used in emerging advanced applications. In this perspective, we focus on cationic systems, and we describe how various structural motifs influence macromolecular properties for anion exchange membranes and gene delivery vectors. © 2017 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2017 , 55 , 3167–3174
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