Litcius/Paper detail

Cerium(<scp>iv</scp>) complexes with guanidinate ligands: intense colors and anomalous electronic structures

Yusen Qiao, Haolin Yin, Liane M. Moreau, Rulin Feng, Robert F. Higgins, Brian C. Manor, Patrick J. Carroll, Corwin H. Booth, Jochen Autschbach, Eric J. Schelter

2020Chemical Science30 citationsDOIOpen Access PDF

Abstract

) with more guanidinate ligands, and revealed the multiconfigurational ground states for all Ce(iv) complexes. Cyclic voltammetry experiments demonstrated less stabilization of the Ce(iv) oxidation state with more guanidinate ligands. Moreover, the Ce(iv) tris(guanidinate) complex exhibited temperature independent paramagnetism (TIP) arising from the small energy gap between the ground- and excited states with considerable magnetic moments. Computational analysis suggested that the origin of the low energy absorption bands was a charge transfer between guanidinate π orbitals that were close in energy to the unoccupied Ce 4f orbitals. However, the incorporation of sterically hindered guanidinate ligands inhibited optimal overlaps between Ce 5d and ligand N 2p orbitals. As a result, there was an overall decrease of ligand-to-metal donation and a less stabilized Ce(iv) oxidation state, while at the same time, more of the donated electron density ended up in the 4f shell. The results indicate that incorporating guanidinate ligands into Ce(iv) complexes gives rise to intense charge transfer bands and noteworthy electronic structures, providing insights into the stabilization of tetravalent lanthanide oxidation states.

Topics & Concepts

CeriumChemistryStereochemistryOrganic chemistryLanthanide and Transition Metal ComplexesMagnetism in coordination complexesMetal complexes synthesis and properties