posted on 2018-08-23, 18:56authored byXin-Xin Wang, Fei-Yang Tian, Kai Chen, Yun-Qian Zhang, Zhu Tao, Qian-Jiang Zhu
In
the present work, we selected hexamethylcucurbit[3,3]uril (Me6Q[3,3]) as a building block and obtained two Me6Q[3,3]-based porous supramolecular assemblies from neutral water
(A) and aqueous HCl solutions (B), respectively.
Both Me6Q[3,3]-based assemblies are constructed of Me6Q[3,3] molecules through the typical outer surface interaction
of cucurbit[n]urils, as well as hydrogen bonding
between latticed water molecules and portal carbonyl oxygens of Me6Q[3,3]. The assemblies present different porous structure
features and exhibit different adsorption properties for eight common
volatile organic compounds. However, the two porous assemblies exhibit
similar adsorption properties for certain fluorophore dyes, including
rhodamine B (G1), fluorescein (G2), and
pyrene (G3), and form solid colored fluorescent compounds,
some of which exhibit responses to the selected volatile organic compounds.