Ionic Strength Effect in the Equilibrium and Rheological Behavior of an Amphiphilic Triblock Copolymer at the Air/Solution Interface
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Carbone, Carlo; Guzmán, Eduardo; Maldonado Valderrama, Julia; G. Rubio, Ramón; Ortega Gómez, FranciscoEditorial
MDPI
Materia
Dilational rheology Electrocapillary waves Interfacial tension
Date
2024-03-01Referencia bibliográfica
Carbone, C.; Guzmán, E.; Maldonado-Valderrama, J.; Rubio, R.G.; Ortega, F. Ionic Strength Effect in the Equilibrium and Rheological Behavior of an Amphiphilic Triblock Copolymer at the Air/Solution Interface. Colloids Interfaces 2024, 8, 16. https://doi.org/10.3390/colloids8020016
Sponsorship
MICINN (Spain) under grant PID2019-106557GB-C21; E.U. in the framework of the European Innovative Training Network-Marie Sklodowska-Curie Action NanoPaInt (grant agreement 955612)Abstract
This study investigates the effect of an inert salt (NaCl) on the equilibrium interfacial
tension and dilatational modulus of Pluronic F-68 copolymer, a triblock copolymer consisting of two
terminal blocks of poly(ethylene oxide) and a less hydrophilic central block of poly(propylene oxide).
Interfacial tension measurements were carried out using a surface force balance and a drop shape
tensiometer, while rheological measurements were carried out in two different frequency ranges. This
involved the use of the oscillatory barrier/droplet method and electrocapillary wave measurements,
complemented by an appropriate theoretical framework. This work aimed to elucidate the influence
of NaCl on the interfacial behavior of Gibbs monolayers of Pluronic F-68. In addition, this study
highlights some of the technical and theoretical limitations associated with obtaining reliable dilatational
rheological data at high frequencies (<1 kHz) using electrocapillary wave measurements. The
results provide valuable insights into the interplay between salt presence and interfacial properties of
Pluronic F-68 and highlight the challenges of obtaining accurate dilatational rheological data under
specific measurement conditions.