Strukturell unterschiedliche Metallamide (Li, Cu, Ag, Cd) mit dem Chelatliganden [tBu–N–SiMe2–O–C6H4–O–Sime2–N–tBu]2–

Abstract

Structurally Different Metal Amides (Li, Cu, Ag, Cd) with the Chelating Ligand [tBu‐N–SiMe₂–O–C₆H₄–O–SiMe₂–N–tBu]^2– Herrn Professor Heinrich Nöth zum 65. Geburtstag gewidmet. The amino hydrogen atoms in the silylamine o‐C₆H₄O₂(Me₂SiN(H)tBu)₂ (1) can be replaced by monovalent (Li, Cu, Ag) or divalent (Cd) metallic elements. Whereas the lithium compound is obtained as an ether adduct, [C₆H₄O₂(Me₂SiNtBu)₂]Li₂ · OEt₂ (2), the copper and silver compounds are solvens‐free. The latter two form similar dimers comprising four metal atoms: [C₆H₄O₂(Me₂SiNtBu)₂]₂Cu₄ (3) and [C₆H₄O₂ (Me₂SiNtBu)₂]₂Ag₄ (4). The cadmium compound is also a dimer with two ligands and two cadmium atoms making up the molecule, [C₆H₄O₂(Me₂SiNtBu)₂]₂Cd₂ (5). X‐ray structure analyses reveal that in all compounds the metallic elements are highly coordinated by N and O interactions, with coordination numbers of 4 (2, 3, 4) and 5 (5). The oxygen contacts are quite long ranging from 260 to 301 pm. In the Cu und Ag compounds quadratic planar arrangements at the metals are found (bridged by nitrogen) with distances Cu–Cu 262.6(2)–270.1(2) and Ag–Ag 291.7(1)–301.8(2) pm.