Origins of dihydrogen binding to metal-inserted porphyrins: electric polarization and Kubas interaction

Abstract

Using density functional theory calculations, we have investigated the interactions between hydrogen molecules and metalloporphyrins. A metal atom such as Ca or Ti is introduced for incorporation in the central N4 cavity. Within local density approximation (generalized gradient approximation), we find that the average binding energy of H2 to the Ca atom is about 0.25 (0.1) eV/H2 up to four H2 molecules, whereas that to the Ti atom is about 0.6 (0.3) eV per H2 up to two H2. Our analysis of orbital hybridization between the inserted metal atom and molecular hydrogen shows that H2 binds weakly to Ca-porphyrin through a weak electric polarization in dihydrogen, but is strongly hybridized with Ti-porphyrin through the Kubas interaction. The presence of d orbitals in Ti may explain the difference in the interaction types.