Journal ArticleLattice Monte Carlo and off-lattice molecular dynamics simulations of h1t4 and h4t1 (head/tail) amphiphile solutions have been performed as a function of surfactant concentration and temperature. The lattice and off-lattice systems exhibit quite different self-assembly behavior at equivalent thermodynamic conditions. We found that in the weakly aggregating regime (no preferred-size micelles), all models yield similar micelle size distributions at the same average aggregation number, albeit at different thermodynamic conditions (temperatures)
A lattice Monte Carlo Model is developed to examine mixed surfactant systems, or more specifically, ...
In this paper, a molecular dynamics simulation of surfactant self-assembly using realistic atomistic...
We have studied the self-assembly of amphiphiles over wide ranges of temperature and concentration u...
We use a stochastic molecular dynamics simulation method to investigate the effect of optimal head g...
We have studied the effect of shape of an amphiphilic molecule on micellization properties by carryi...
Results are presented from NVT Monte Carlo simulations of a three-dimensional lattice model of a bin...
We determine the phase diagram of several amphiphilic molecules as a function of the amphiphilic par...
The study of amphiphilic molecules and their behaviour in solution is encompassed in a broad array o...
Amphiphilic molecules with hydrophobic tails and hydrophilic heads form micelles of various shapes a...
In this paper, a molecular dynamics simulation of surfactant self-assembly using realistic atomistic...
Amphiphilic molecules with hydrophobic tails and hydrophilic heads form micelles of various shapes a...
Amphiphilic molecules with hydrophobic tails and hydrophilic heads form micelles of various shapes a...
Materials based on amphiphilic molecules have a wide range of industrial applications and are of fun...
Amphiphilic molecules with hydrophobic tails and hydrophilic heads form micelles of various shapes a...
A lattice Monte Carlo Model is developed to examine mixed surfactant systems, or more specifically, ...
A lattice Monte Carlo Model is developed to examine mixed surfactant systems, or more specifically, ...
In this paper, a molecular dynamics simulation of surfactant self-assembly using realistic atomistic...
We have studied the self-assembly of amphiphiles over wide ranges of temperature and concentration u...
We use a stochastic molecular dynamics simulation method to investigate the effect of optimal head g...
We have studied the effect of shape of an amphiphilic molecule on micellization properties by carryi...
Results are presented from NVT Monte Carlo simulations of a three-dimensional lattice model of a bin...
We determine the phase diagram of several amphiphilic molecules as a function of the amphiphilic par...
The study of amphiphilic molecules and their behaviour in solution is encompassed in a broad array o...
Amphiphilic molecules with hydrophobic tails and hydrophilic heads form micelles of various shapes a...
In this paper, a molecular dynamics simulation of surfactant self-assembly using realistic atomistic...
Amphiphilic molecules with hydrophobic tails and hydrophilic heads form micelles of various shapes a...
Amphiphilic molecules with hydrophobic tails and hydrophilic heads form micelles of various shapes a...
Materials based on amphiphilic molecules have a wide range of industrial applications and are of fun...
Amphiphilic molecules with hydrophobic tails and hydrophilic heads form micelles of various shapes a...
A lattice Monte Carlo Model is developed to examine mixed surfactant systems, or more specifically, ...
A lattice Monte Carlo Model is developed to examine mixed surfactant systems, or more specifically, ...
In this paper, a molecular dynamics simulation of surfactant self-assembly using realistic atomistic...
We have studied the self-assembly of amphiphiles over wide ranges of temperature and concentration u...
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