Add to ORKGWe investigate the influence of incompatibility and dielectric contrast on the reorientation kinetics of concentrated solutions of lamellar block copolymers in the presence of an external DC electric field. We study solutions of AC diblock copolymer and ABC triblock terpolymers. The inclusion of a short, polar middle block B is used to tailor both the degree of incompatibility and the dielectric contrast between the two majority phases. In situ synchrotron radiation small-angle X-ray scattering is used to monitor the reorientation process. For the AC diblock copolymer sample only weak electric field induced reorientation could be achieved, following a very slow kinetics. whereas for the ABC triblock terpolymer, reorientation is observed abo...
Block copolymers consisting of incompatible components self-assemble into microphase-separated domai...
The dynamics of alignment of microstructure in confined films of diblock copolymer melts in the pres...
We have aligned the microdomains of a polystyrene-b-poly(2-hydroxyethyl methacrylate)-b-poly(methyl ...
We investigate the microdomain orientation kinetics of concentrated block copolymer solutions expose...
We investigate the mechanism of microdomain orientation in concentrated block copolymer solutions ex...
We have followed the reorientation kinetics of various block copolymer solutions exposed to an exter...
External electric fields align nanostructured block copolymers by either rotation of grains or nucle...
A detailed birefringence analysis of the effect of strong dc electric fields on the order–disorder t...
The use of electric fields to control the orientation of copolymer microstructures in a thin film ge...
Increasing miniaturization of electronic and data storage devices necessitates methods which enable ...
It is demonstrated that the orientation of striped patterns can be reversibly switched between two p...
By anchoring random copolymers to the substrates, the interfacial interactions were tuned precisely ...
The structural versatility of block copolymers on the nanometer scale make them highly promising can...
We investigate the microscopic mechanisms responsible for microdomain alignment in block copolymer s...
We investigate the kinetics of block copolymer/nanoparticle composite alignment in an electric field...
Block copolymers consisting of incompatible components self-assemble into microphase-separated domai...
The dynamics of alignment of microstructure in confined films of diblock copolymer melts in the pres...
We have aligned the microdomains of a polystyrene-b-poly(2-hydroxyethyl methacrylate)-b-poly(methyl ...
We investigate the microdomain orientation kinetics of concentrated block copolymer solutions expose...
We investigate the mechanism of microdomain orientation in concentrated block copolymer solutions ex...
We have followed the reorientation kinetics of various block copolymer solutions exposed to an exter...
External electric fields align nanostructured block copolymers by either rotation of grains or nucle...
A detailed birefringence analysis of the effect of strong dc electric fields on the order–disorder t...
The use of electric fields to control the orientation of copolymer microstructures in a thin film ge...
Increasing miniaturization of electronic and data storage devices necessitates methods which enable ...
It is demonstrated that the orientation of striped patterns can be reversibly switched between two p...
By anchoring random copolymers to the substrates, the interfacial interactions were tuned precisely ...
The structural versatility of block copolymers on the nanometer scale make them highly promising can...
We investigate the microscopic mechanisms responsible for microdomain alignment in block copolymer s...
We investigate the kinetics of block copolymer/nanoparticle composite alignment in an electric field...
Block copolymers consisting of incompatible components self-assemble into microphase-separated domai...
The dynamics of alignment of microstructure in confined films of diblock copolymer melts in the pres...
We have aligned the microdomains of a polystyrene-b-poly(2-hydroxyethyl methacrylate)-b-poly(methyl ...