Mechanistic Investigation of Cycloreversion/Cycloaddition Reactions between Zirconocene Metallacycle Complexes and Unsaturated Organic Substrates

Abstract: Treatment of the diazametallacycle Cp 2 Zr(N(t-Bu)C=N(SiMe 3 )N(SiMe 3 )) (4a) with diphenylacetylene resulted in the formation of the azametallacyclobutene Cp 2 Zr(N(t-Bu)C(Ph)=C (Ph)) (6a) and Me 3 SiN=C=NSiMe 3 in high yield. A kinetic study using UV-vis spectroscopy was carried out on the transformation. Saturation kinetic behavior was observed for the system, which is supportive of a mechanism that involves a reversible formal [2 + 2] retrocycloaddition of 4a to generate the transient imido species Cp 2 Z… Show more

“…Obviously, the first step is the dehydrohalogenation of 8 a. Removal of HCl twice will generate a highly reactive 16-electron phosphinidene complex (14), [19] which we presume to dimerize directly to 15. Alternatively, 14 may react with its precursor, which on removal of HCl also will give 15.…”

“…Also the syntheses of stable imido complexes of the type [(h 6 -Ar)M NR] (M Ru, [11] Os [12] ) have been reported. Their reactivities, such as cycloadditions and dimerizations, were shown to resemble those of the isoelectronic iridium complexes [Cp*IrNR], [13,14] but to differ from those of, for example, transient zirconium complex [Cp 2 ZrNR]. [15] Recently, we reported on the transient iridium phosphinidene complex, [Cp*IrPAr], which gave stable adducts [Cp*(L)Ir PAr] with a range of ligands (L PR 3 , P(OR) 3 , AsR 3 , dppe, RN C and CO).…”

Synthesis and Reactions of Terminal Osmium and Ruthenium Complexed Phosphinidenes [(η⁶‐Ar)(L)MPMes*]

“…Obviously, the first step is the dehydrohalogenation of 8 a. Removal of HCl twice will generate a highly reactive 16-electron phosphinidene complex (14), [19] which we presume to dimerize directly to 15. Alternatively, 14 may react with its precursor, which on removal of HCl also will give 15.…”

“…Also the syntheses of stable imido complexes of the type [(h 6 -Ar)M NR] (M Ru, [11] Os [12] ) have been reported. Their reactivities, such as cycloadditions and dimerizations, were shown to resemble those of the isoelectronic iridium complexes [Cp*IrNR], [13,14] but to differ from those of, for example, transient zirconium complex [Cp 2 ZrNR]. [15] Recently, we reported on the transient iridium phosphinidene complex, [Cp*IrPAr], which gave stable adducts [Cp*(L)Ir PAr] with a range of ligands (L PR 3 , P(OR) 3 , AsR 3 , dppe, RN C and CO).…”

Synthesis and Reactions of Terminal Osmium and Ruthenium Complexed Phosphinidenes [(η⁶‐Ar)(L)MPMes*]

“…Group 4 imido complexes24, 25 have attracted considerable attention26–42 for the past decade, in part because the MNR imido moiety exhibits substantial reactivity toward a wide range of unsaturated organic substrates such as alkynes, imines, and certain alkenes. These reactions typically proceed through formal [2 + 2] cycloadditions; however, nonterminal imido complexes such as vinylimido titanocenes undergo [4 + 2] cycloadditions with ketones, nitriles, and imines 43, 44.…”

Catalytic Activity Dependency on Catalyst Components in Aerobic Copper–TEMPO Oxidation

“…Carbodiimides also react with imidozirconocene complexes, yielding (β‐imido)diazazirconacyclobutanes 33. 34 The steric limitations of the [2 + 2] cycloaddition reactions were probed using a series of symmetrical carbodiimides RNCNR (R = CMe 3 , i ‐Pr, SiMe 3 , p ‐tolyl, c ‐C 6 H 11 ) 33. Xylylimido complex 1b · THF reacts with all five carbodiimides at room temperature to give the expected metallacycles 42a – e (Eq.…”

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