Neodymium(III) Complexes Capable of Multi-Electron Redox Chemistry

Abstract

A family of neodymium complexes featuring a redox-active ligand in three different oxidation states has been synthesized, including the iminoquinone (L⁰ ) derivative, (^dipp iq)₂ NdI₃ (1-iq), the iminosemiquinone (L^1- ) compound, (^dipp isq)₂ NdI(THF) (1-isq), and the amidophenolate (L^2- ) [K(THF)₂ ][(^dipp ap)₂ Nd(THF)₂ ] (1-ap) and [K(18-crown-6)][(^dipp ap)₂ Nd(THF)₂ ] (1-ap crown) species. Full spectroscopic and structural characterization of each derivative established the +3 neodymium oxidation state with redox chemistry occurring at the ligand rather than the neodymium center. Oxidation with elemental chalcogens showed the reversible nature of the ligand-mediated reduction process, forming the iminosemiquinone metallocycles, [K(18-crown-6)][(^dipp isq)₂ Nd(S₅ )] (2-isq crown) and [K(18-crown-6)(THF)][(^dipp isq)₂ Nd(Se₅ )] (3-isq crown), which are characterized to contain a 6-membered twist-boat ring.

Keywords: lanthanide; neodymium; oxidation; redox-active ligand; reduction.