Protonation versus Oxonium Salt Formation: Basicity and Stability Tuning of Cyanoborate Anions

Anhydrous H[BH₂ (CN)₂ ] crystallizes from acidic aqueous solutions of the dicyanodihydridoborate anion. The formation of H[BH₂ (CN)₂ ] is surprising as the protonation of nitriles requires strongly acidic and anhydrous conditions but it can be rationalized based on theoretical data. In contrast, [BX(CN)₃ ]^- (X=H, F) gives the expected oxonium salts (H₃ O)[BX(CN)₃ ] while (H₃ O)[BF₂ (CN)₂ ]/H[BF₂ (CN)₂ ] is unstable. H[BH₂ (CN)₂ ] forms chains via N-H⋅⋅⋅N bonds in the solid state and melts at 54 °C. Solutions of H[BH₂ (CN)₂ ] in the room-temperature ionic liquid [EMIm][BH₂ (CN)₂ ] contain the [(NC)H₂ BCN-H⋅⋅⋅NCBH₂ (CN)]^- anion and are unusually stable, which enabled the study of selected spectroscopic and physical properties. [(NC)H₂ BCN-H⋅⋅⋅NCBH₂ (CN)]^- slowly gives H₂ and [(NC)H₂ BCN-BH(CN)₂ ]^- . The latter compound is a source of the free Lewis acid BH(CN)₂ , as shown by the generation of [BHF(CN)₂ ]^- and BH(CN)₂ ⋅py.