Add to ORKGWe identified the effect of the geometry imposed by the shape of the Wigner-Seitz cell or confinement domain in the strong segregation limit of diblock copolymer melts with strong composition asymmetry. A variational problem is proposed describing the distortions of the chain paths due to the geometric constraints. For cylindrical phases, we computed the geometric excess energies on hexagonal, square, and triangular domains in the plane orthogonal to the cylinder axis. Our results explicitly demonstrate that the hexagonal lattice of cylinders has the lowest energy for a fixed Wigner-Seitz cell area among the three possible periodic lattices covering the plane
ABSTRACT: A mean-field phase diagram for conformationally symmetric diblock melts using the standard...
A general theory has been developed for a polydisperse semi-flexible multi-block copolymer melt. Usi...
Using self-consistent field theory in spherical unit cells of various dimensionality, D = 1, 2, 3, a...
We identified the effect of the geometry imposed by the shape of the Wigner-Seitz cell or confinemen...
The self-consistent field theory (SCFT) introduced by Helfand for diblock copolymer melts is expecte...
Melts of block copolymers provide an ideal route to engineering well-controlled structures on nanome...
We investigate the effect of polydispersity on the lamellar phase of a diblock copolymer melt using ...
In this paper we derive a new model for diblock copolymer melts with a dominant phase that is simple...
In this paper we derive a new model for diblock copolymer melts with a dominant phase that is simple...
The inherent nanoscale morphologies of self-organizing diblock copolymer melts are now being investi...
We report high resolution self-consistent field theory (SCFT) calculations that show the gyroid phas...
<p>In this paper we derive a new model for diblock copolymer melts with a dominant phase that ...
Diblock copolymer melts, dubbed “designer materials”, have the remarkable ability to self-Bemble int...
ABSTRACT: Conditions for the crossover from the strong to the superstrong segregation regime are ana...
In this paper we study a new model for patterns in two dimensions, inspired by diblock copolymer mel...
ABSTRACT: A mean-field phase diagram for conformationally symmetric diblock melts using the standard...
A general theory has been developed for a polydisperse semi-flexible multi-block copolymer melt. Usi...
Using self-consistent field theory in spherical unit cells of various dimensionality, D = 1, 2, 3, a...
We identified the effect of the geometry imposed by the shape of the Wigner-Seitz cell or confinemen...
The self-consistent field theory (SCFT) introduced by Helfand for diblock copolymer melts is expecte...
Melts of block copolymers provide an ideal route to engineering well-controlled structures on nanome...
We investigate the effect of polydispersity on the lamellar phase of a diblock copolymer melt using ...
In this paper we derive a new model for diblock copolymer melts with a dominant phase that is simple...
In this paper we derive a new model for diblock copolymer melts with a dominant phase that is simple...
The inherent nanoscale morphologies of self-organizing diblock copolymer melts are now being investi...
We report high resolution self-consistent field theory (SCFT) calculations that show the gyroid phas...
<p>In this paper we derive a new model for diblock copolymer melts with a dominant phase that ...
Diblock copolymer melts, dubbed “designer materials”, have the remarkable ability to self-Bemble int...
ABSTRACT: Conditions for the crossover from the strong to the superstrong segregation regime are ana...
In this paper we study a new model for patterns in two dimensions, inspired by diblock copolymer mel...
ABSTRACT: A mean-field phase diagram for conformationally symmetric diblock melts using the standard...
A general theory has been developed for a polydisperse semi-flexible multi-block copolymer melt. Usi...
Using self-consistent field theory in spherical unit cells of various dimensionality, D = 1, 2, 3, a...