Synthesis and crystal structure of the coordination polymer [{Li(H2O)3}2(C36H36N24O12)]Cl2•6H2O

“…The presence of polar carbonyl groups in CB[6] enables the formation of complexes with oxophilic metals via hydrogen bonding or direct coordination with metal aqua complexes. 16–22…”

“…The presence of polar carbonyl groups in CB [6] enables the formation of complexes with oxophilic metals via hydrogen bonding or direct coordination with metal aqua complexes. [16][17][18][19][20][21][22] Supramolecular assembly has recently been proved to be an efficient way of fabricating smart photofunctional materials. In this method, well-ordered architectures bearing novel photophysical properties are formed spontaneously from individual chromophore components by noncovalent interaction or self-aggregation.…”

Supramolecular lanthanide assemblies with cucurbit[6]uril: from synthesis and crystal structure to application

“…The presence of polar carbonyl groups in CB[6] enables the formation of complexes with oxophilic metals via hydrogen bonding or direct coordination with metal aqua complexes. 16–22…”

“…The presence of polar carbonyl groups in CB [6] enables the formation of complexes with oxophilic metals via hydrogen bonding or direct coordination with metal aqua complexes. [16][17][18][19][20][21][22] Supramolecular assembly has recently been proved to be an efficient way of fabricating smart photofunctional materials. In this method, well-ordered architectures bearing novel photophysical properties are formed spontaneously from individual chromophore components by noncovalent interaction or self-aggregation.…”

Supramolecular lanthanide assemblies with cucurbit[6]uril: from synthesis and crystal structure to application

Synthesis and crystal structure of new coordination polymers based on sodium aqua complexes and macrocyclic cavitand cucurbit[6]uril

Supramolecular chain-like polymers based on Ln(III) aqua complexes and cucurbit[6]uril