Bis(-butoxydiphenylsilyl)amide Divalent Lanthanide Complexes.

The development of new ligand systems to stabilize "non-traditional/non-classical" divalent lanthanides is key to tuning the chemical and physical properties of their mixed principal quantum number 4f5d ground states. The design and study of novel ligand systems which stabilize occupation of differing orbitals within the 5d manifold for these ions constitutes an area ripe for exploration. Our efforts toward the development of redox-innocent bulky silylamide ligands to stabilize pseudo-octahedral coordination geometries for divalent lanthanides have resulted in the synthesis of the bis(-butoxydiphenylsilyl)amide ligand, whose coordination complexes with Sm, Eu, and Yb are reported herein. These systems have been fully characterized by single-crystal X-ray diffraction, elemental analysis, cyclic voltammetry, direct-current magnetometry, and infrared, nuclear magnetic resonance, and electronic absorption spectroscopies. Attempts to extend this system to the more reducing Tm ion resulted in an inseparable mixture of products from which crystals of the analogous Tm species and a reduced dinitrogen, bimetallic Tm-Tm complex bridged by a η-N radical could be identified. Though progress toward six-coordinate complexes of reducing "traditional/classical" divalent ions is noted for these systems, further work is needed to improve the synthetic utility of this ligand framework for the study of "non-traditional/non-classical" divalent lanthanides with a mixed-principal quantum number 4f5d ground state.