Add to ORKGSoft matter systems deal with particles or collections of particles that respond to applied forces with a non-linear response. Examples include polymers, colloids, vesicles, gels, emulsions, micelles and capsules. It is therefore unsurprising that these soft particles are ubiquitous: present in our everyday life, biologically important, and found in many industrial processes. To these systems, flow plays an essential role technologically (e.g. electrospinning, microfluidics, and directed self-assembly), biologically (e.g., blood flow), and industrially (e.g. polymer extruders and pumping of nuclear waste). Utilizing non-equilibrium coarse-grained molecular dynamics (CGMD), we have explored time and length scales of self-assembled polymeric ...
Giant micelles are elongated, polymer-like objects created by the self-assembly of amphiphilic molec...
We investigate the shear-induced structure formation of colloidal particles dissolved in non-Newtoni...
We present a comprehensive experimental and theoretical study covering micro-, meso- and macroscopic...
Soft colloids comprise a wide class of materials, ranging from linear polymers over polymeric assemb...
Soft colloids comprise a wide class of materials, ranging from linear polymers over polymeric assemb...
Soft matter materials are classically characterized by rheological experiments, which probe the mech...
We investigated the effect of external steady shear on dilute to concentrated solutions of PEP-PEO d...
In this thesis, we studied two soft condensed matter systems. The first part of the thesis studied t...
Wagner, Norman J.Gillespie, John W.The complex, nonlinear flow behavior of soft materials transcends...
INTRODUCTION Aqueous surfactant solutions are known to form elongated micelles under certain thermo...
This work undertakes the fundamental study of structure and dynamics of an entirely new class of org...
We investigate structural and dynamical properties of ultra-soft colloids in dilute and semi-dilute ...
Soft particles such as drops, vesicles, and red blood cells, display rich dynamics in externally app...
Statics, dynamics, rheology and scission-recombination kinetics of self-assembling linear micelles a...
We discuss the nonequilibrium properties of rodlike and ultrasoft, star-polymer like colloidal parti...
Giant micelles are elongated, polymer-like objects created by the self-assembly of amphiphilic molec...
We investigate the shear-induced structure formation of colloidal particles dissolved in non-Newtoni...
We present a comprehensive experimental and theoretical study covering micro-, meso- and macroscopic...
Soft colloids comprise a wide class of materials, ranging from linear polymers over polymeric assemb...
Soft colloids comprise a wide class of materials, ranging from linear polymers over polymeric assemb...
Soft matter materials are classically characterized by rheological experiments, which probe the mech...
We investigated the effect of external steady shear on dilute to concentrated solutions of PEP-PEO d...
In this thesis, we studied two soft condensed matter systems. The first part of the thesis studied t...
Wagner, Norman J.Gillespie, John W.The complex, nonlinear flow behavior of soft materials transcends...
INTRODUCTION Aqueous surfactant solutions are known to form elongated micelles under certain thermo...
This work undertakes the fundamental study of structure and dynamics of an entirely new class of org...
We investigate structural and dynamical properties of ultra-soft colloids in dilute and semi-dilute ...
Soft particles such as drops, vesicles, and red blood cells, display rich dynamics in externally app...
Statics, dynamics, rheology and scission-recombination kinetics of self-assembling linear micelles a...
We discuss the nonequilibrium properties of rodlike and ultrasoft, star-polymer like colloidal parti...
Giant micelles are elongated, polymer-like objects created by the self-assembly of amphiphilic molec...
We investigate the shear-induced structure formation of colloidal particles dissolved in non-Newtoni...
We present a comprehensive experimental and theoretical study covering micro-, meso- and macroscopic...