863221-71-0Relevant academic research and scientific papers
Well-defined imidotitanium alkyl cations: Agostic interactions, migratory insertion vs. [2+2] cycloaddition, and the first structurally authenticated AlMe3 adduct of any transition metal alkyl cation
Bolton, Paul D.,Clot, Eric,Cowley, Andrew R.,Mountford, Philip
, p. 3313 - 3315 (2005)
The imidotitanium alkyl cations [Ti(NtBu)(Me3[9] aneN3)R]+ (R = Me (3+) or CH 2SiMe3 (4+)) possess either a very weak α-agostic or β-Si-C agostic interactions, respectively, according to 13C and 29Si NMR and DFT studies; reaction of 4 + with iPrNCNiPr gives totally selective insertion into the Ti-alkyl bond; reaction of 3+ with AlMe 3 gives the first structurally characterised AlMe3 adduct of a transition metal alkyl cation (Me3[9]aneN3 = 1,4,7-trimethyltriazacyclononane). The Royal Society of Chemistry 2005.
Ti=NR vs Ti-R′ functional group selectivity in titanium imido alkyl cations from an experimental perspective
Bolton, Paul D.,Feliz, Marta,Cowley, Andrew R.,Clot, Eric,Mountford, Philip
, p. 6096 - 6110 (2009/04/12)
A study of the reactions of the titanium imido methyl cation [Ti(N tBu)(Me3[9]aneN3)X]+ (5+, X = Me) and key analogues (6+, X = CH2SiMe3; 7+, X = Cl) with a range of unsaturated substrates provides a comprehensive evaluation of reaction site selectivity in transition-metal cations which contain both Ti=NR and Ti-R′ functional groups as potential sites for 2π + 2π cycloaddition and migratory insertion, respectively. Cations 5+ and 6+ reacted with MeCN to form Ti-R′ insertion products. Insertion reactions were also exclusively observed in their reactions with N,N′-disubstituted carbodiimides or tert-butyl isocyanate. In contrast, reaction of the chloride cation 7+ with diisopropylcarbodiimide or tert-butyl isocyanate afforded the unusual σ adducts [Ti(NtBu)(Me3[9]aneN3)(L)Cl] + (L = iPrNCNiPr, tBuNCO), which slowly underwent 2π + 2π cycloaddition. Reaction of 5+ with the internal alkynes PhCCR (R = Ph, SiMe3) also showed exclusive preference for insertion into the Ti-Me bond. In contrast, reaction with terminal alkynes RCCH (R = Ph, SiMe3) yielded only the azametallacyclic products via 2π + 2π cycloaddition reactions. The chloride cation 7+ also underwent a 2π + 2π cycloaddition with PhCCH but was unreactive toward PhCCPh, ethylene, styrene, or 1-hexene.
