Seohee Oh scite author profile

Reversible transformations are observed between a phosphide-nickel(II) alkoxide and a phosphinite-nickel(0) species via a P-O bond formation coupled with a 2-e(-) redox change at the nickel center. In the forward reaction, the nickel(0) dinitrogen species (PP(OMe)P)Ni(N2) (2) and {(PP(OMe)P)Ni}2(μ-N2) (3) were formed from the reaction of (PPP)NiCl (1) with a methoxy anion. In the backward reaction, a (PPP)Ni(II) moiety was regenerated from the CO2 reaction of 3 with the concomitant formation of a methyl carbonate ligand in (PPP)Ni(OCOOMe) (7). Thus, unanticipated metal-ligand cooperation involving a phosphide based ligand is reported.

show abstract

Reversible Intramolecular P–S Bond Formation Coupled with a Ni(0)/Ni(II) Redox Process

Lee

2016

Organometallics

View full text Add to dashboard Cite

P–S bond formation/cleavage mediated by a nickel ion supported by a PPP ligand (PPP = P[2-P i Pr2-C6H4]2 –) has been investigated herein. To gain an entry into this chemistry, a mononuclear thiolato nickel complex, (PPP)Ni(SAr) (1a,b) was prepared by treating the chloride starting material with NaSPh. Upon carbonylation, this complex produces a nickel(0) monocarbonyl species, (PPSArP)Ni(CO) (2a,b), in which the thiolate migrates onto the central P of the ligand to give a P–S bond and two-electron reduction of a nickel(II) center. The reaction undergoes via a pseudo-first-order decay with respect to consumption of a nickel(II) thiolato species, suggesting an intramolecular reaction under the excess CO(g) conditions. The reverse reaction involving P–S bond cleavage with concomitant decarbonylation occurs to regenerate 1a,b in benzene. Reaction of 2a with trityl chloride results in Ph3CSPh formation, whereas the reaction with MeI gives methylation at a phosphide moiety or a thiolate group.

show abstract

Alkoxide Migration at a Nickel(II) Center Induced by a π-Acidic Ligand: Migratory Insertion versus Metal–Ligand Cooperation

Kim

Lee

et al. 2016

Inorg. Chem.

View full text Add to dashboard Cite

Two pathways of alkoxide migration occurring at a nickel(II) center supported by a PPP ligand (PPP = P[2-PPr-CH]) are presented in this Article. In the first route, the addition of a π-acidic ligand to a (PPP)Ni alkoxide species reveals the formation of a P-O bond. This reaction occurs via metal-ligand cooperation (MLC) involving a 2-electron reduction at nickel. To demonstrate a P-O bond formation, a nickel(II) isopropoxide species (PPP)Ni(OPr) (4) was prepared. Upon addition of a π-acidic isocyanide ligand CNBu, a nickel(0) isocyanide species (PPP)Ni(CNBu) (6b) was generated; P-O bond formation occurred via reductive elimination (RE). When CO is present, migratory insertion (MI) occurs instead. The reaction of 4 with CO(g) results in the formation of (PPP)Ni(COOPr) (5), representing an alternative pathway. The corresponding RE product (PPP)Ni(CO) (6a) can be independently produced from the substitution reaction of {(PPP)Ni}(μ-N) (3) with CO(g). While two different carbonylation pathways in 4 seem feasible, C-O bond forming migratory insertion singly occurs. Regeneration of a (PPP)Ni moiety via a P-O bond cleavage was demonstrated by treating 3 with CO(g). The formation of (PPP)Ni(OCOOPr) (7) clearly shows that an isopropoxide group migrates onto the bound CO ligand, and a P-Ni moiety is regenerated.

show abstract

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.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Seohee Oh

Transmethylation of a four-coordinate nickel(i) monocarbonyl species with methyl iodide

Phosphinite-Ni(0) Mediated Formation of a Phosphide-Ni(II)-OCOOMe Species via Uncommon Metal–Ligand Cooperation

Reversible Intramolecular P–S Bond Formation Coupled with a Ni(0)/Ni(II) Redox Process

Alkoxide Migration at a Nickel(II) Center Induced by a π-Acidic Ligand: Migratory Insertion versus Metal–Ligand Cooperation

Contact Info

Product

Resources

About