Phase separation phenomena of aqueous suspensions of cellulose nanocrystals have been studied for bacterial cellulose (BC) prepared by sulfuric acid hydrolysis. Suspensions at concentrations above 0.42 wt % separated into the isotropic and chiral nematic phases with a clear phase boundary. The shape and size distribution of BC nanocrystals in both the phases were determined by transmission electron microscopy (TEM) and atomic force microscopy (AFM). The surface charge density was determined by conductometric titration. The effects of added NaCl (0-5.0 mM) on the phase separation behavior of the aqueous suspensions were investigated for a fixed total cellulose concentration. The volume fraction of the chiral nematic phase had a minimum value at a NaCl concentration of ca. 1.0 mM. At NaCl concentrations ranging from 2.0 to 5.0 mM, the suspensions did not separate into two phases, but became entirely liquid crystalline. The size of the ordered domains in the anisotropic phase decreased with an increase in the NaCl concentration from 0 to 2.75 mM. At 2.75 mM, only tactoids were observed in the entire region. At 5.0 mM, chiral nematic domains were no longer observed. The chiral nematic pitch decreased with increasing concentration of added NaCl, reached a minimum value at approximately 0.75 mM, and then increased sharply with the NaCl concentration up to 2.0 mM.
The crystal transformation in lamellar crystals of polybutene-1 grown from an amyl acetate
solution was studied by cryogenic high-resolution transmission electron microscopy. The shape of the
transformed trigonal (form-1) crystal domains in the surrounding tetragonal (form-2) crystal was
successfully revealed. Along with the nucleation of the “untwinned” form-1, the existence of another
nucleation mechanism which creates the “twinned” form-1 was suspected. Each crystallite of form-1 was
comparatively large, and accordingly, the growth of the form-1 crystal was thought to progress not stem
by stem but by pulling in the molecular chains from the surrounding form-2, creating new stems of form-1. Once form-1 has nucleated, mutual orientation between the form-1 and the form-2 domains appeared
to be insignificant for further growth. The shape of the form-1 domain was irregular, and no specific
crystallographic direction along which the form-1 domain tends to grow was found.
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