ИСТИНА

Athermal solutions (from dilute to concentrated) of semiflexible macromolecules confined in a film of thickness D between two hard walls have been studied by means of grand-canonical lattice Monte Carlo simulation using the bond fluctuation model. This system exhibits two phase transitions as a function of the film thickness and polymer volume fraction. One of them is the bulk isotropic-nematic transition of first-order, which ends in a critical point on decreasing the film thickness. The chemical potential at this transition decreases with decreasing film thickness (“capillary nematization”). The other transition is a continuous (or very weakly first-order) transition in the layers adjacent to the hard planar walls from the disordered phase, where the bond vectors of the macromolecules show local ordering (i.e., “preferential orientation” along the x or y axes of the simple cubic lattice, but no long-range orientational order occurs), to a quasi-two-dimensional nematic phase (with the director at each wall being oriented along either the x or y axis), while the bulk of the film is still disordered. When the monomer density increases, the thickness of these surface-induced nematic layers grows, causing the disappearance of the disordered region in the center of the film.