Abstract
At present, a large amount of research from experimental and theoretical points of view has been done on interpolyelectrolyte complexes formed by electrostatic attractive forces and/or interpolymer complexes stabilized by hydrogen bonds. By contrast, relatively less attention has been given to polymer–polymer complex formation with synthetic polyampholytes (PA). In this review the complexation of polyampholytes with polyelectrolytes (PE) is considered from theoretical and application points of view. Formation of intra- and interpolyelectrolyte complexes of random, regular, block, dendritic polyampholytes are outlined. A separate subsection is devoted to amphoteric behavior of interpolyelectrolyte complexes. The realization of the so-called “isoelectric effect” for interpolyelectrolyte complexes of water-soluble polyampholytes, amphoteric hydrogels and cryogels with respect to surfactants, dye molecules, polyelectrolytes and proteins is demonstrated.
Highlights
Formation of polyelectrolyte-polyampholyte complexes (PPC) is crucial from fundamental and practical points of view [1,2,3,4,5]
“Annealed” polyampholytes consist of acid-base monomers that are ionized in dependence of pH, while “quenched” polyampholytes containing strongly charged cationic and anionic monomers retain their respective charges independently on pH
Analogy between interpolyelectrolyte complexes derived from anionic andand cationic polyelectrolyte pairs andand polyampholytes is justified to expand derived from
Summary
Formation of polyelectrolyte-polyampholyte complexes (PPC) is crucial from fundamental and practical points of view [1,2,3,4,5]. (or “zwitterionic”) polyampholytes are macromolecules containing identical numbers of acid-base (or fully charged anionic-cationic) species in the same monomer units [7,8,9,10]. The of polyampholytes is on the interaction of polyelectrolytes withare polyampholytes and theory formation of interpolyelectrolyte polyelectrolyte–polyampholyte polyelectrolyte–polyampholyte complexation complexation are are highlighted. The theory theory of of polyampholytes polyampholytes is is described briefly to introduce thethe readers torealization specific properties of amphoteric complexes (Inter-PEC). Experimental findings on thethe derived from anionic and cationic polyelectrolyte pairs and polyampholytes is justified to expand our complexes complexes (Intra-PEC). Analogy between interpolyelectrolyte complexes derived from anionic andand cationic polyelectrolyte pairs andand polyampholytes is justified to expand derived from
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