We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of poly(styrene-butadiene) diblocks and homopolystyrene. The micelle core radii, corona thicknesses, and critical micelle concentrations are calculated as functions of the polymer molecular weights and the composition of the diblocks. We then make a parameter-free comparison of our results with an earlier scaling theory and X-ray scattering data. For the micelle core radii R, we find that SCFT reproduces the shape of the variation of R with different molecular parameters much more accurately compared to scaling theory, though, like scaling theory, it overestimates R by about 20-30%. For the corona thickness L, the accuracy of our SCFT results is...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
We present a self-consistent Field theory (SCFT) Study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
We present a self-consistent Field theory (SCFT) Study of spherical micelle formation in a blend of ...
We present a self-consistent Field theory (SCFT) Study of spherical micelle formation in a blend of ...
We present a self-consistent Field theory (SCFT) Study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
We present a self-consistent Field theory (SCFT) Study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
We present a self-consistent Field theory (SCFT) Study of spherical micelle formation in a blend of ...
We present a self-consistent Field theory (SCFT) Study of spherical micelle formation in a blend of ...
We present a self-consistent Field theory (SCFT) Study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
We present a self-consistent field theory (SCFT) study of spherical micelle formation in a blend of ...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...
Diblock copolymers blended with homopolymer may self-assemble into spherical, cylindrical, or lamell...