화학공학소재연구정보센터
Journal of Physical Chemistry B, Vol.114, No.45, 14729-14734, 2010
Electronic Structural Effects in Self-Exchange Reactions
We report rate constants for electron self-exchange reactions of a series of trinuclear ruthenium clusters substituted with three pyridines [Ru3O(OAc)(6)(L)(3)](+/0) or one carbonyl and two pyndmes [Ru3O(OAc)(6)(CO)(L)(2)](0/-) For the 0/- couple in the latter series, the observed rate constant is determined by orbital overlap More electron-withdrawing pyridine ligands increase the donor-acceptor overlap and more effectively reduce a large reorganization barrier (lambda approximate to 10 000 cm(-1)), leading to faster exchange Larger aromatic ligands also increase the rate by increasing the coupling For the +/0 couple in tris-pyridyl clusters, there is no observable trend based on pyridine electron-withdrawing ability, and we conclude that charge density on peripheral ligands is not a determining factor for this exchanging pair From structural and vibrational data, the inner sphere reorganization barrier, lambda(is), is estimated to be 1520 cm(-1) and outer sphere reorganization energy, A., is estimated to be between 1800 and 3600 cm(-1) in CD2Cl2 The large range is due to uncertainty in the electron transfer distance, r lambda(tot) for the +/0 pair is then estimated to be between 3320 and 5120 cm(-1), well less than the 10 000 cm(-1) estimated for the 0/- pair The similar rate constants observed despite very different reorganization energies is explained by donor-acceptor orbital overlap in the 0/- pair, which is consistent with greater delocalization allowed by donor-acceptor orbital symmetry