posted on 2017-03-30, 00:00authored byJi Ha Lee, Sung Ho Jung, Shim Sung Lee, Ki-Young Kwon, Kazuo Sakurai, Justyn Jaworski, Jong Hwa Jung
Supramolecular
assemblies have in the past been considered mechanically
weak and in most cases unable to withstand their own weight. Calixarene-derived
networks can, however, provide robust supramolecular gels. Incorporating
a photoreactive stilbene moiety, we show that the aggregation state
of the material can be tuned by heating and UV exposure in order to
control the mechanical as well as the fluorescent properties. Regulating
the extent of heating to control the proportion of H-aggregates and
J-aggregates and further cross-linking of H-aggregates by control
over UV exposure allows for adjustable photopatterning of the fluorescence
as well as the material stiffness in the range from ∼100 to
450 kPa. We expect this straightforward supramolecular system will
be suitable for advanced prototyping in applications where modulus
and shape are important design criteria.