Electronic Structure and Intrinsic Redox Properties of [2Fe-2S]+ Clusters with Tri- and Tetracoordinate Iron Sites

March 7, 2005

Journal Article

Electronic Structure and Intrinsic Redox Properties of [2Fe-2S]+ Clusters with Tri- and Tetracoordinate Iron Sites

Abstract

Using potentially bidentate ligands (-SC2H4H2), we produced [2Fe-2S]+ species of different coordination geometries by fission of [4Fe-4S]2+ complexes. Even though the ligands are monodentate in the cubane complexes, both mono- and bidentate complexes were observed in the [2Fe] fission products through self-assembly because of the high reactivity of the tricoordinate iron sites. The electronic structure of the [2Fe] species was probed using photoelectron spectroscopy and density functional calculations. It was found that tetracoordination significantly decreases the electron binding energies of the [2Fe] complexes, thus increasing the reducing capability of the [2Fe-2S]+ clusters.

Revised: April 7, 2011 | Published: March 7, 2005

Citation

Fu Y., S. Niu, T. Ichiye, and L.S. Wang. 2005. Electronic Structure and Intrinsic Redox Properties of [2Fe-2S]+ Clusters with Tri- and Tetracoordinate Iron Sites. Inorganic Chemistry 44, no. 5:1202-1204. PNNL-SA-44758.