The so-called critical condition for polyelectrolyte-colloid complex formation

The so-called critical condition for polyelectrolyte-colloid complex formation

Complexes formed between oppositely charged polyelectrolytes (PE’s) and either biological or abiotic colloid particles play a central role in such remarkably diverse areas as enzyme immobilization, protein purification, growth factor delivery, personal care products, food formulations and as precurs...

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Veröffentlicht in:The Journal of chemical physics 2018-10, Vol.149 (16), p.163321-163321
Hauptverfasser: Comert, Fatih, Xu, Amy Y., Madro, Slawomir P., Liadinskaia, Vanda, Dubin, Paul L.
Format: Artikel
Sprache:eng
Schlagworte:
Anisotropy
Charge density
Charged particles
Colloids
Complex formation
Electrostatics
Formulations
Growth factors
Micelles
Multilayers
Polydispersity
Polyelectrolytes
Proteins
Stability
Surface charge
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Beschreibung
Zusammenfassung:Complexes formed between oppositely charged polyelectrolytes (PE’s) and either biological or abiotic colloid particles play a central role in such remarkably diverse areas as enzyme immobilization, protein purification, growth factor delivery, personal care products, food formulations and as precursors to coacervates and multilayers. Unlike PE adsorption on oppositely charged planar surfaces—also driven by electrostatics—PE-colloid complexes are often equilibrium states exhibiting reversible formation at a well-defined “critical” colloid surface charge density. We consider how the experimentally observed breadth of this transition, for three polyelectrolyte-colloid systems, is broadened—compared to theoretical expectations—due to (1) colloid (protein) charge anisotropy, (2) colloid (micelle) polydispersity, and (3) colloid (micelle) instability.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.5029296