Add to ORKGThesis (Ph.D.)--University of Washington, 2014Surfactant molecules can self-assemble into various morphologies under proper combinations of surfactant concentration, temperature, and flow conditions. In equilibrium, micelles can transition from entangled to branched structures with increasing ionic strength and temperature. Under flow conditions, micellar structure transition can follow different trajectories. In the present work, the structural and rheological evolution of both ionic and non-ionic micellar solutions are studied. When both ionic and non-ionic micellar solutions are subjected to strain rates ∼10^3 s−1 and strain ∼10^3, we observe the formation of stable flow-induced structured phases (FISPs), with entangled, branched, and mu...
Worm-like micelles are of special interest among the many forms of surfactant aggregates because of ...
Microstructures in two mixed surfactants systems that show novel transformations as a function of co...
The molecular architecture of sugar-based surfactants strongly affects their self-assembled structur...
In this work, we consider the flow of a nonionic micellar solution (precursor) through an array of m...
The shear flow dynamics of linear and branched wormlike micellar systems based on cetylpyridinium ch...
Structure and rheology of surfactant solutions are very sensitive to electrostatic interactions and ...
Thesis (Ph.D.)--University of Washington, 2016-08The widespread use of wormlike micellar solutions i...
Wagner, Norman J.The molecular design of soft materials with optimal flow properties is highly desir...
Small-angle neutron scattering (SANS) and rheology are used to probe the wormlike micelles formed in...
Hypothesis: The self-assembly of long tail sugar-based surfactants into worm-like micelles has recen...
<p>We present a systematic molecular dynamics (MD) simulation study of the structure and rheology of...
Wormlike micelles are typically formed by mixing cationic and anionic surfactants because of attract...
Micellar solutions are made of amphiphilic molecules, with a hydrophilic head and a hydrophobic tail...
The development of Couette shear-flow cells for use with small-angle neutron scattering (SANS) has p...
In ionic surfactant micelles, interactions among surfactant monomers, their counterion, and additive...
Worm-like micelles are of special interest among the many forms of surfactant aggregates because of ...
Microstructures in two mixed surfactants systems that show novel transformations as a function of co...
The molecular architecture of sugar-based surfactants strongly affects their self-assembled structur...
In this work, we consider the flow of a nonionic micellar solution (precursor) through an array of m...
The shear flow dynamics of linear and branched wormlike micellar systems based on cetylpyridinium ch...
Structure and rheology of surfactant solutions are very sensitive to electrostatic interactions and ...
Thesis (Ph.D.)--University of Washington, 2016-08The widespread use of wormlike micellar solutions i...
Wagner, Norman J.The molecular design of soft materials with optimal flow properties is highly desir...
Small-angle neutron scattering (SANS) and rheology are used to probe the wormlike micelles formed in...
Hypothesis: The self-assembly of long tail sugar-based surfactants into worm-like micelles has recen...
<p>We present a systematic molecular dynamics (MD) simulation study of the structure and rheology of...
Wormlike micelles are typically formed by mixing cationic and anionic surfactants because of attract...
Micellar solutions are made of amphiphilic molecules, with a hydrophilic head and a hydrophobic tail...
The development of Couette shear-flow cells for use with small-angle neutron scattering (SANS) has p...
In ionic surfactant micelles, interactions among surfactant monomers, their counterion, and additive...
Worm-like micelles are of special interest among the many forms of surfactant aggregates because of ...
Microstructures in two mixed surfactants systems that show novel transformations as a function of co...
The molecular architecture of sugar-based surfactants strongly affects their self-assembled structur...