Molecular rotors: design, synthesis, structural analysis, and silver complex of new [7.7]cyclophanes.

New molecular rotors, [7.7](2,6)pyridinocyclophanes (monomers and dimers) embedding 1,3-dioxanes in the bridges, were investigated by variable-temperature NMR, molecular modeling, and single-crystal X-ray diffractometry. The nitrogen-inside rotation of the pyridine ring is more hindered in the derivatives with longer distance between the bridges (i.e., para > meta and 2,6-pyridylene > ortho) and can be chemically stopped by complexation with CF(3)SO(3)Ag. [structure: see text]

Design and synthesis of new macrocyclic cyclophanes using 1,3-dioxane units as bridges: a molecular "rocking chair".

The design, synthesis and structural analysis of architecturally new cyclophanes (monomers, dimers, and trimers) are reported. Variable temperature NMR experiments reveal a regular, tandem dynamic in the cyclophane 2a that enables its description as a "molecular rocking chair". The NMR and X-ray structure investigations show important intra- and intermolecular aromatic pi-stacking interactions.