Synthesis and ligand binding properties of triptycene-linked porphyrin arrays
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Finnigan, E. M.; Rein, R.; Solladié, N.; Dahms, K.; Götz, D. C. G.; Bringmann, G.; Senge, M. O., Synthesis and ligand binding properties of triptycene-linked porphyrin arrays, Tetrahedron, 67, 2011, 1126 - 1134
Abstract
Multiporphyrin arrays are a complex class of molecules with numerous potential applications in
energy transfer, photomedicine and light harvesting. We have developed a facile/versatile route
to a class of triptycene linked porphyrin arrays via both Suzuki and Sonogashira cross coupling
methods which makes use of the rigid three-pronged orientation of triptycene to construct
trimeric porphyrin arrays linked either in the meso or ?-position with various linker groups. In
order to understand the properties of these potential antenna systems and probe their potential
applications, the coordination behavior of zinc(II) derivatives with mono- and bidentate N-donor
ligands was investigated. Depending on ligand concentration, both one- and two-point binding
was observed with a bidentate ligand. Also/In addition, different cavity sizes, obtained by the
use of different linker groups, resulted in differences in the binding properties of each trimeric
system.
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Sponsor: Science Foundation Ireland (SFI)
Grant Number: FP/CHEF232 and
Sponsor: Science Foundation Ireland (SFI)
Grant Number: 09/IN.1/B2650
Author's Homepage: http://people.tcd.ie/sengem
Type of material: Journal Article

