Porphyrin Nanotubes Based on Self-Assembly of Mo(V)-Dodecaphenylporphyrin Complexes and Inclusion of Mo-Oxo Clusters:? Synthesis and Characterization by X-ray Crystallography and Transmission Electron Microscopy.

A saddle-distorted molybdenum(V)-dodecaphenylporphyrin (H2DPP) complex, Mo(DPP)(O)(OMe) (1), was converted to Mo(DPP)(O)(H2O)(2) in the course of recrystallization from toluene with vapor diffusion of methanol. The complex 2was organized via self-assembly to form a porphyrin nanotube having a diameter of 1 nm, concomitant with size-selective inclusion of three kinds of novel tetranuclear Mo(VI)-oxo clusters in the nanotube. This porphyrin nanotube exhibits amphiphilic characteristics, that is, a hydrophobic porphyrin surface and a hydrophilic inner-sphere made of aquo ligands to include ionic and hydrophilic entities. Each nanotube has no direct interaction; however, the toluene molecules of crystallization linked the nanotubes together with intermolecular - and CH/ interactions. Transmission electron microscopy measurements and energy-dispersive X-ray analysis revealed that the diameters of porphyrin nanotubes could be altered by the size of the Mo-oxo clusters included and also a porphyrin nanoring could be obtained. These results indicate that a variety of porphyrin nanotubular structures can be fabricated by using DPP complexes via cooperatively template-assisted self-assembly. [ABSTRACT FROM AUTHOR]