화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.137, No.38, 12394-12399, 2015
Supramolecular Coordination Polymer Formed from Artificial Light-Harvesting Dendrimer
We report the formation of supramolecular coordination polymers formed from multiporphyrin dendrimers (PZnPM; M = FB or Cu), composed of the focal freebase porphyrin (P-FB) or cupper porphyrin (P-Cu) with eight zinc porphyrin (P-Zn) wings, and multipyridyl porphyrins (PyPM; M = FB or Cu), PFB or P-Cu with eight pyridyl groups, through multiple axial coordination interactions of pyridyl groups to P(Zn)s. UV-vis absorption spectra were recorded upon titration of PyPFB to PZnPFB. Differential spectra, obtained by subtracting the absorption of PZnPFB without guest addition as well as the absorption of PyPFB, exhibited clear isosbestic points with saturation binding at 1 equiv addition of PyPFB to PZnPFB. Job's plot analysis also indicated 1:1 stoichiometry for the saturation binding. The apparent association constant between PZnPFB and PyPFB (2.91 x 10(6) M-1), estimated by isothermal titration calorimetry, was high enough for fibrous assemblies to form at micromolar concentrations. The formation of a fibrous assembly from PZnPFB and PyPFB was visualized by atomic force microscopy and transmission electron microscopy (TEM). When a 1:1 mixture solution of PZnPFB and PyPFB (20 mu M) in toluene was cast onto mica, fibrous assemblies with regular height (ca. 2 nm) were observed. TEM images obtained from 1:1 mixture solution of PZnPFB and PyPFB (0.1 wt %) in toluene clearly showed the formation of nanofibers with a regular diameter of ca. 6 nm. Fluorescence emission measurement of PZnPM indicated efficient intramolecular energy transfer from P-Zn to the focal P-FB or P-Cu. By the formation of supramolecular coordination polymers, the intramolecular energy transfer changed to intermolecular energy transfer from PZnPM to PyPM. When the nonfluorescent PyPCu was titrated to fluorescent PZnPFB, fluorescence emission from the focal P-FB was gradually decreased. By the titration of fluorescent PyPFB to nonfluorescent PZnPCu, fluorescence emission from P-FB in PyPFB was gradually increased due to the efficient energy transfer from P-Zn wings in PZnPCu to PyPFB.