Phase diagrams for reversibly associating one-end-functionalized chain molecules (with an emphasis on hydrogen bonding) are determined by computer simulations of a cubic lattice model employing canonical and grand canonical Monte Carlo methods. Due to the relatively short chain lengths used, the stability of the homogeneous state is strongly enhanced compared to mean-field random phase approximation predictions. Characteristic phenomenon such as reappearing phases and macrophase separation into two phases, at least one of which is microphase separated, are observed and discussed
Under proper conditions block copolymers or the analogous molecular complexes formed by non-covalent...
Abstract: The Leibler theory [L. Leibler, Macromolecules, v.13, 1602 (1980)] for microphase separati...
Precise control over folded conformations of synthetic polymers is highly desirable in the developme...
Phase diagrams for reversibly associating one-end-functionalized chain molecules (with an emphasis o...
Under proper conditions block copolymers or the analogous molecular complexes formed by non-covalent...
Phase behavior of solvent free mixtures of homopolymers and amphiphiles capable of hydrogen bonding ...
The phase behavior of A(fmN)(B(N/2)A(N/2))B(1-f)mN multiblock copolymer melts is studied within the ...
In this paper we present the results of a calculation of the phase diagram of a highly polydisperse ...
Multiblock copolymers (MBCPs) are an emerging class of materials that are becoming more accessible i...
Conditions to obtain micro-phase separated morphologies in polymer-surfactant systems involving hydr...
AbstractBy means of extensive replica-exchange Monte Carlo simulations of a generic coarse-grained m...
The effect of A-block polydispersity on the phase behavior of AB diblock copolymer melts is examined...
A correct description of phase behaviour in polymer solutions requires a coupling between configurat...
Under proper conditions block copolymers or the analogous molecular complexes formed by non-covalent...
Abstract: The Leibler theory [L. Leibler, Macromolecules, v.13, 1602 (1980)] for microphase separati...
Precise control over folded conformations of synthetic polymers is highly desirable in the developme...
Phase diagrams for reversibly associating one-end-functionalized chain molecules (with an emphasis o...
Under proper conditions block copolymers or the analogous molecular complexes formed by non-covalent...
Phase behavior of solvent free mixtures of homopolymers and amphiphiles capable of hydrogen bonding ...
The phase behavior of A(fmN)(B(N/2)A(N/2))B(1-f)mN multiblock copolymer melts is studied within the ...
In this paper we present the results of a calculation of the phase diagram of a highly polydisperse ...
Multiblock copolymers (MBCPs) are an emerging class of materials that are becoming more accessible i...
Conditions to obtain micro-phase separated morphologies in polymer-surfactant systems involving hydr...
AbstractBy means of extensive replica-exchange Monte Carlo simulations of a generic coarse-grained m...
The effect of A-block polydispersity on the phase behavior of AB diblock copolymer melts is examined...
A correct description of phase behaviour in polymer solutions requires a coupling between configurat...
Under proper conditions block copolymers or the analogous molecular complexes formed by non-covalent...
Abstract: The Leibler theory [L. Leibler, Macromolecules, v.13, 1602 (1980)] for microphase separati...
Precise control over folded conformations of synthetic polymers is highly desirable in the developme...