Interfacial tension of reactive, liquid interfaces and its consequences.

  title={Interfacial tension of reactive, liquid interfaces and its consequences.},
  author={Ana{\"i}s Giustiniani and Wiebke Drenckhan and Christophe Poulard},
  journal={Advances in colloid and interface science},

Review on Amphiphilic Ionic Liquids as New Surfactants: From Fundamentals to Applications

How the IFT and critical micelle concentration of different systems vary in the presence of different SAILs with a variety of alkyl chain lengths, head groups, and counter anions is explained.

Reaction Kinetics at PDMS-E Emulsion Droplet-Gelatin Interface.

Thermodynamic analysis indicates that the interfacial reaction is an endothermic reaction, and the results of amino conversion rate determination show that the reaction proceeded in two steps.

Nanometric Surface Oscillation Spectroscopy of Water-Poor Microemulsions.

From variation of the surface wave spectrum with rare earth concentration, it is shown that uptake of rare-earth ions at the interface and at higher concentration the formation of a thin "crust" of liquid crystal forming at unusually low concentration is indicative of a surface induced phase transition.

Influence of the presence of dioctyl sulfosuccinate sodium as adjuvant on the equilibrium data of aqueous two-phase systems formed by polyethylene glycol + potassium phosphate + water at 298.15 K

Abstract Liquid-liquid equilibrium data were obtained for aqueous two-phase systems (ATPS) formed by polyethylene glycol (4000 or 6000 g mol−1) + potassium phosphate (K2HPO4/H3PO4 or K2HPO4) + water.

RNAPhaSep: a resource of RNAs undergoing phase separation

RNAPhaSep is introduced, a manually curated database of RNAs undergoing LLPS, a valuable resource for exploring the relationship between RNA properties and phase behaviour, and may further enhance the comprehensive understanding of LLPS in cellular functions and human diseases.

Pyrenoids: CO2-fixing phase separated liquid organelles.



The unstable and expanding interface between reacting liquids: theoretical interpretation of negative surface tension

When a chemical reaction between two immiscible liquids creates surfactant molecules at the interface between them, the interfacial surface tension decreases with increasing amount of surfactant. In

Interfacial Tension in Binary Polymer Blends and the Effects of Copolymers as Emulsifying Agents

The structure and the thermodynamic state of polymeric interfaces are important features in many materials of technological interest. This is especially true for multiconstituent systems such as

On the origin of the stability of foams made from catanionic surfactant mixtures

Using mixtures of the anionic myristic acid (C13COOH) and the cationic cetyl trimethylammonium chloride (C16TA+Cl−) in aqueous solutions at a 2:1 ratio, we show that the outstanding stability of

The role of particles in stabilising foams and emulsions.

Dynamic surface tensions of nonionic surfactant solutions

Abstract The air–solution equilibrium and dynamic surface tensions, γ eq and γ( t ), respectively, of different nonionic C i E j and glucamide surfactants have been studied as a function of

Kinetics and mechanism of coupling of functionalized chains at the immiscible polymer-polymer interface

Theoretical and experimental studies in the literature on the coupling between functionalized polymer chains at immiscible polymer−polymer interfaces have always involved second-order kinetics. In