Effect of aromatic-aromatic interaction on ligand binding to zinc porphyrins

Chemical double mutant cycles have been used to measure the magnitude of edge-to-face aromatic interactions in hydrogen-bonded zipper complexes as a function of substituents on both aromatic rings. The interaction energies vary depending on the combination of substituents from +1.0 kJ mol-1 (repulsi

Picosecond excited-state dynamics of conformationally constrained triads 14, zinc porphyrin (ZnP)-free-base porphyrin (H,P)-1,4: $8~naphthalenetetracarboximide (NIm) bearing aromatic spacers between the ZnP and HIP moieties, were studied by picosecond time-resolved transient absorption spectroscopy.

## Abstract The method of solution of the nonlinear Poisson–Boltzmann equation was used to calculate electrostatic energy of binding of various aromatic ligands with DNA oligomers of different length. Analysis of the electrostatic contribution was made in terms of a two‐step DNA binding process: fo

Excited state properties of coordination compounds have been studied for many years. Surprisingly, rather little is known about excited states, which are based on intramolecular interligand interactions. There are two types of these interligand excited states. In homoleptic complexes, such as Mg(C 5

This review describes light induced energy or electron transfer reactions in self-assembled supramolecular zinc porphyrin/zinc phthalocyanine and fullerene bearing donor-acceptor systems. The self-assembled supramolecular dyads and triads are formed by using one or two types of the binding mechanism