Abstract
We present the first experimental measurements of the isotropic and nematic phases of mixtures of thin, charged semiflexible fd virus, and thick, fd-PEG created by covalently grafting poly-(ethylene glycol) to the the surface of fd, rods. The fd-PEG is sterically stabilized and its phase behavior is independent of ionic strength. The fd is charged. Therefore, by varying the ionic strength of a mixture of fd and fd-PEG, only the effective diameter of the bare fd rods changes, subsequently varying the effective diameter ratio (d=D_fd-PEG/D_fd)
from 3.7 to 1. In solution, binary mixtures of fd and fd-PEG are shown to exhibit isotropic-nematic, isotropic-nematic-nematic and nematic-nematic coexisting phases with increasing concentration. We measure the binary phase diagrams as a function of composition, total concentration, and ionic strength.
We find a lower critical point in the nematic-nematic coexistence region which
has not been observed previously. These experimental results resolve a
controversy in the literature concerning the evolution of the nematic-nematic
phase separation with concentration. The experimental results are qualitatively
described by a rescaled Onsager-type theory for the phase behavior of binary
rod mixtures.