Add to ORKGThe kinetics of hexagonal to disordered and hexagonal to body-centered-cubic phase transitions in weakly segregated, microstructured systems (e.g., diblock copolymers) is studied using a time-dependent Ginzburg-Landau (TDGL) approach. Both computer simulation of the TDGL equation and analysis of a simplified two-mode model reveal nontrivial pathways during the transition
The time evolution of an N-component model of bicontinuous microemulsions based on a time-dependent ...
We study the dynamics of a heteropolymeric chain relaxing toward a new equilibrium configuration aft...
Stability of ordered phases in diblock copolymer melts is studied using a theory of anisotropic fluc...
We use Brownian dynamics (BD), molecular dynamics, and dissipative particle dynamics to study the ph...
Block copolymers self-assemble to form a variety of different phases with highly regular patterns, d...
We study the microstructural glass transition in diblock-copolymer melts using a thermodynamic repli...
Recent advances in the use of time-dependent order parameter theory to describe the kinetics of orde...
The order-disorder and order-order transitions (ODT and OOT) in the linear multiblock copolymers wit...
[EN]: By means of computer simulations of bead-spring models, we investigate the segmental dynamics ...
In part 1 of this two-paper series, a local order parameter framework was put forth that could track...
Block copolymers self-assemble to form a variety of phases with highly regular patterns, depending o...
The phase transformation process has been investigated by using the time dependent Ginzburg-Landau (...
In this paper we present the results of a calculation of the phase diagram of a highly polydisperse ...
A partial phase diagram is constructed for diblock copolymer melts using lattice-based Monte Carlo s...
The order-disorder transition of a sphere-forming block copolymer thin film was numerically studied ...
The time evolution of an N-component model of bicontinuous microemulsions based on a time-dependent ...
We study the dynamics of a heteropolymeric chain relaxing toward a new equilibrium configuration aft...
Stability of ordered phases in diblock copolymer melts is studied using a theory of anisotropic fluc...
We use Brownian dynamics (BD), molecular dynamics, and dissipative particle dynamics to study the ph...
Block copolymers self-assemble to form a variety of different phases with highly regular patterns, d...
We study the microstructural glass transition in diblock-copolymer melts using a thermodynamic repli...
Recent advances in the use of time-dependent order parameter theory to describe the kinetics of orde...
The order-disorder and order-order transitions (ODT and OOT) in the linear multiblock copolymers wit...
[EN]: By means of computer simulations of bead-spring models, we investigate the segmental dynamics ...
In part 1 of this two-paper series, a local order parameter framework was put forth that could track...
Block copolymers self-assemble to form a variety of phases with highly regular patterns, depending o...
The phase transformation process has been investigated by using the time dependent Ginzburg-Landau (...
In this paper we present the results of a calculation of the phase diagram of a highly polydisperse ...
A partial phase diagram is constructed for diblock copolymer melts using lattice-based Monte Carlo s...
The order-disorder transition of a sphere-forming block copolymer thin film was numerically studied ...
The time evolution of an N-component model of bicontinuous microemulsions based on a time-dependent ...
We study the dynamics of a heteropolymeric chain relaxing toward a new equilibrium configuration aft...
Stability of ordered phases in diblock copolymer melts is studied using a theory of anisotropic fluc...