Tunable Morphology and
Mesophase Formation by Naphthalene-Containing Poly(aryl ether) Dendron-Based
Low-Molecular-Weight Fluorescent Gels
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Abstract
Novel poly(aryl ether) dendron-based low-molecular-weight
organogelaters (LMWG) containing naphthalene units at the core have
been synthesized, and the self-assembly of the system has been examined
in a variety of solvents and solvent mixtures. The compounds readily
form gels with attractive critical gel concentration values associated
with gelation-induced enhanced emission (GIEE). In addition to the
remarkable properties of the previously reported anthracene and pyrene
analogues (Rajamalli, P.; Prasad, E. <i>Org. Lett.</i> <b>2011</b>, <i>13,</i> 3714 and Rajamalli, P.; Prasad,
E. <i>Soft Matter</i> <b>2012</b>, <i>8,</i> 8896), the self-assembled systems exhibit distinctly different structure–property
relationships. Unlike the reported ones, the present system forms
sheetlike morphology in nonpolar solvent mixtures, giant vesicles
in polar solvent mixtures, and lamellar or hexagonal columnar phases
in single solvents. The unique properties of the self-assembled systems,
which were analyzed through electron microscopic (SEM, TEM, AFM) and
spectroscopic techniques (POM, fluorescence), are attributed to the
replacement of anthracene/pyrene units by naphthalene units. The present
work unravels the subtle role of minute structural change in altering
the properties of LMWGs based on poly(aryl ether) dendrons