2-Azirines are versatile coupling partners for the synthesis of N-heterocycles. Herein, we present our studies on the reactivity of CpTi(BTMSA) (; BTMSA = bis(trimethylsilyl)acetylene) with a variety of azirines. In all the cases examined, the initial organometallic products formed are diazatitanacyclohexenes, presumably formed via oxidative addition of Ti(II) into the C-N bond of the azirine to form an azatitanacyclobutene intermediate, followed by C═N insertion of a second equivalent of azirine into the Ti-C bond to form the observed products. Diazatitanacyclohexene , bearing phenyl substituents and derived from 2,3-diphenyl-2-azirine, fragments to form an azabutadiene and nitrile, which is shown to be catalytic in the presence of excess 2,3-diphenyl-2-azirine. H-substituted complex , derived from 3-phenyl-2-azirine, decomposes via protonolysis of the Cp ligands. In contrast, the methyl-substituted diazatitanacyclohexene , derived from 2-methyl-3-phenyl-2-azirine, is thermally robust. Attempts to trap the putative azatitanacyclobutene intermediate with an alkyne were unsuccessful, resulting instead in the formation of titanacyclopentadiene () from coupling of alkyne with BTMSA. Initial reactivity studies found that could be protonolyzed with AcOH to form mixtures of pyrrole and aziridine products, whereas reacting with MeOH results solely in the formation of 2,4-dimethyl-3,5-diphenyl-1-pyrrole.
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