Triamidoamine-supported zirconium phosphido complexes, (N 3 N)ZrPRR 0 (N 3 N=N(CH 2 CH 2 -NSiMe 3 ) 3 3-; R = alkyl, aryl; R 0 = R, H), have been shown to catalyze the hydrophosphination of terminal alkynes as well as that of symmetric aryl and alkyl carbodiimides. A mechanism based on insertion of the substrate into the Zr-P bond is proposed on the basis of competition experiments and model examples of stoichiometric insertion reactions of polar, small-molecule substrates possessing CdO, CdN, CtN, and CdS functionalities into the Zr-P bond. Molecular structures of the insertion products (N 3 N)ZrNdC(PHCy)Ph (4), (N 3 N)ZrNdC(PPh 2 )Ph (5), and (N 3 N)ZrPhNC-(O)PPh 2 (11), as well as (N 3 N)Zr[η 2 (N,N)-( i PrN) 2 C(PPh 2 )] (9), a key intermediate in the catalytic hydrophosphination of carbodiimides, have been determined.
A homoleptic triamidoamine zirconium complex featuring a metalated trimethylsilyl substituent, [κ 5 -(Me 3 SiNCH 2 CH 2 ) 2 NCH 2 CH 2 NSiMe 2 CH 2 ]Zr (1), was synthesized by reaction of Zr(CH 2 Ph) 4 with N(CH 2 CH 2 NHSiMe 3 ) 3 followed by sublimation. Complex 1 is a general precursor to a family of complexes with the formulation (N 3 N)ZrX (N 3 N ) N(CH 2 CH 2 NSiMe 3 ) 3 3-, X ) anionic ligand) by reactions that parallel expected reactivity of a hydride derivative. Treatment of 1 with phosphines, amines, thiols, alkynes, and phenol resulted in the formation of new, pseudo-C 3V -symmetric (N 3 N)ZrX complexes (X ) phosphido, amido, alkynyl, thiolate, or phenoxide) via element-H bond activation. Thus, the reactivity of complex 1 is that best described as a hydride surrogate. For example, complex 1 reacted with PhPH 2 at ambient temperature to provide (N 3 N)ZrPHPh (2) in 86% yield. Density functional theory studies and X-ray crystal structures provide a general overview of the bonding in these complexes, which appears to be highly ionic. In general, there is little evidence for ligand-to-metal π-bonding for the pseudoaxial X ligand in these complexes except for strongly π-basic terminal amido ligands. The limited π-bonding appears to be the result of competitive π-donation by the pseudoequatorial amido arms of the triamidoamine ancillary ligand. Thus, the relative Zr-X bond energies are governed by the basicity of the anionic ligand X. Solid-state structures of phosphido (3, 4, 5), amido (10), and thiolate (15) complexes support the computational results.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.