Cationic Bismuth Amides: Accessibility,Structure, and Reactivity

The synthetic access to cationic bismuth compounds based on simple, monodentate, synthetically useful amido ligands, [Bi(NR₂)₂(L)_n]⁺, has been investigated (R=Me, iPr, Ph; L=neutral ligand). With [BPh₄]^? as a counteranion, the formation of contact ion pairs and subsequent phenyl transfer from B to Bi is observed. An intermediate of this reaction, [Bi(NMe₂)₂(HNMe₂)(BPh₄)] ( 1 ), could be isolated and fully characterized. The use of a fluorinated tetraarylborate as a counteranion leads to more stable cationic bismuth amides. The solvent‐separated ion pairs [Bi₂(μ₂‐NMe₂)₂(NMe₂)₂(thf)₆]²⁺ ( 4 ) and [Bi(NiPr₂)₂(thf)₃]⁺ ( 5 ) were fully characterized, with [B(3,5‐C₆H₃(CF₃)₂)₄]^? anions balancing the positive charge. The coordination chemistry, aggregation in solution, and spectroscopic features of these compounds were investigated. Compounds 4 and 5 show an increased reactivity towards diisopropylcarbodiimide compared to their neutral parent compounds. These reactions result in formation of the first cationic bismuth guanidinates. Characterization techniques include ¹H, ¹¹B, ¹³C, ¹⁵N, ¹⁹F, and ³¹P (VT)NMR and IR spectroscopy, single crystal X‐ray diffraction analysis, and DFT calculations.