Enthalpy-Controlled Insertion of a “Nonspectator” Tricoordinate Phosphorus Ligand into Group 10 Transition Metal–Carbon Bonds

Author(s)

Hwang, Seung Jun; Tanushi, Akira; Radosevich, Alexander T

Abstract

© Insertion of a tricoordinate phosphorus ligand into late metal-carbon bonds is reported. Metalation of a P^P-chelating ligand (L1), composed of a nontrigonal phosphorous (i.e., P(III)) triamide moiety, P(N(o-N(Ar)C6H4)2, tethered by a phenylene linker to a -PiPr2 anchor, with group 10 complexes L2M(Me)Cl (M = Ni, Pd) results in insertion of the nontrigonal phosphorus site into the metal-methyl bond. The stable methylmetallophosphorane compounds thus formed are characterized spectroscopically and crystallographically. Metalation of L1 with (cod)PtII(Me)(Cl) does not lead to a metallophosphorane but rather to the standard bisphosphine chelate (κ2-L1)Pt(Me)(Cl). These divergent reactivities within group 10 are rationalized by reference to periodic variation in M-C bond enthalpies.

Date issued

2020

URI

https://hdl.handle.net/1721.1/141227

Journal

Journal of the American Chemical Society

Publisher

American Chemical Society (ACS)

Citation

Hwang, Seung Jun, Tanushi, Akira and Radosevich, Alexander T. 2020. "Enthalpy-Controlled Insertion of a “Nonspectator” Tricoordinate Phosphorus Ligand into Group 10 Transition Metal–Carbon Bonds." Journal of the American Chemical Society, 142 (51).

Version: Author's final manuscript