| Abstract: | Halide Ions as Catalyst: Metalcentered C–C Bond Formation Proceeded from Acetonitril AlMe3 reacts at 20 ?C in acetonitrile to the complex [Me3Al(NCMe)] ( 1 ). By addition of cesium halides (X– = F–, Cl–, Br–) a trimerisation to the heterocycle [Me2Al{HNC(Me)}2C(CN)] ( 2 ) has been observed. The reaction might be carried out under catalytic conditions (1–2 mol% CsX). The gallium complex [Me2Ga{HNC(Me)}2 · C(CN)] ( 3 ), generated under similar reaction conditions, can be converted to the silylated compound [Me2Ga{Me3SiNC(Me)}2C(CN)] ( 4 ) by successive treatment with two equivalents n‐butyllithium and Me3SiCl. 3 reacts under hydrolysis conditions (1 M hydrochloric acid) to the iminium salt [{H2NC(Me)}2C(CN)]Cl ( 5 ). A mixture of H2O, Ph2PCl and 3 in THF/toluene leads in a unusual conversion to the diphospane derivative [Ph2P–P(O)(Me2GaCl)] ( 6 ). 1 , 2 , 4 , 5 and 6 have been characterized by NMR, IR and MS techniques. X‐ray structure analyses were performed with 1 , 2 , 4 and 6 · 0.5 toluene. According this 1 possesses an almost linear axis AlNCC [Al1–N1–C3: 179,5(2)?; N1–C3–C4: 179,7(4)?]. 2 is an AlN2C3 six‐membered heterocycle with two iminium fuctions. One N–H group is responsible for a intermolecular chain‐formation through hydrogen bridges to an adjacent nitrile group along the direction [010]. The basic structural motif of the heterocycle 3 has been maintained after silylation to 4 . In 6 · 0.5 toluene an unit Me2GaCl, originated from 3 , is coordinated to the oxygen atom of the diphosphane oxide Ph2P–P(O)Ph2. |
