Add to ORKGOur Larson‐type microemulsion model for surfactant chains in oil–water solvents leads to long relaxation times as well as, for essential modifications, to a stable peak in the chain‐cluster size distribution. Transfer energies for surfactant chains moving to the oil–water interface, and characteristicmicelle concentrations (CMC) as a function of chain length are compared with experiment
We present a Landau-Ginzburg theory for oil-water-surfactant mixtures with a scalar order parameter ...
Monte Carlo simulations of a Larson-type model for oil-water-amphiphile mixtures determine the chara...
The time scales of the p-nitrophenol (pNP) interfacial association at the curved surfactant monolaye...
The phase behaviour of a microemulsion system consisting of equal volumes of brine and oil, sodium d...
The micellization properties and phase behavior of model ternary surfactant- oil- water systems were...
It is demonstrated how microemulsions can be used as model systems to study a range of fundamental l...
Several thermodynamic models have been developed for the description of the phase behaviour of micel...
Non-polar oils and water can form thermodynamically stable quasi-homogeneous (colloidal) mixtures (c...
The temperature dependence of the critical micelle concentration (CMC) and a closed-loop coexistence...
The study involved investigations on phase behavior and physicochemical characterization of microemu...
By using a three component model microemulsion system of didodecyldimethylammonium bromide - alkanes...
The study of surfactant solutions and microemulsions is relevant for many industrial applications th...
We consider a spin model for applications to oil-water-amphiphilic-surfactant mixtures near the regi...
By using a three component model microemulsion system of didodecyldimethylammonium bromide - alkanes...
The purpose of the present study was to investigate the effect of different oil and chain lengths of...
We present a Landau-Ginzburg theory for oil-water-surfactant mixtures with a scalar order parameter ...
Monte Carlo simulations of a Larson-type model for oil-water-amphiphile mixtures determine the chara...
The time scales of the p-nitrophenol (pNP) interfacial association at the curved surfactant monolaye...
The phase behaviour of a microemulsion system consisting of equal volumes of brine and oil, sodium d...
The micellization properties and phase behavior of model ternary surfactant- oil- water systems were...
It is demonstrated how microemulsions can be used as model systems to study a range of fundamental l...
Several thermodynamic models have been developed for the description of the phase behaviour of micel...
Non-polar oils and water can form thermodynamically stable quasi-homogeneous (colloidal) mixtures (c...
The temperature dependence of the critical micelle concentration (CMC) and a closed-loop coexistence...
The study involved investigations on phase behavior and physicochemical characterization of microemu...
By using a three component model microemulsion system of didodecyldimethylammonium bromide - alkanes...
The study of surfactant solutions and microemulsions is relevant for many industrial applications th...
We consider a spin model for applications to oil-water-amphiphilic-surfactant mixtures near the regi...
By using a three component model microemulsion system of didodecyldimethylammonium bromide - alkanes...
The purpose of the present study was to investigate the effect of different oil and chain lengths of...
We present a Landau-Ginzburg theory for oil-water-surfactant mixtures with a scalar order parameter ...
Monte Carlo simulations of a Larson-type model for oil-water-amphiphile mixtures determine the chara...
The time scales of the p-nitrophenol (pNP) interfacial association at the curved surfactant monolaye...