Superweak Complexes of P4 with Ag(I) of WCAs

Superweak Complexes of Tetrahedral P4 Molecules with the Silver Cation of Weakly Coordinating Anions

The silver aluminates Ag[Al(OC(CF₃)₂(R))₄] (R = H, CH₃, CF₃) react with solutions of white phosphorus P₄ to give complexes that bind one or two almost undistorted tetrahedral P₄ molecules in η² fashion:

[Ag(P₄)₂][Al(OC(CF₃)₃)₄] (1) containing the first homoleptic metal- posphorous cation, the molecular species (P₄)Ag[Al(OC(CH₃)(CF₃)₂)₄] (2),  and the dimeric Ag(μη²-P₄)Ag bridged ((P₄)Ag[Al(OC(H)(CF₃)₂)₄])₂ (3).^[1]

[M(P₄)₂][Al(OC(CF₃)₃)₄]
M = Ag, Cu

To a first approximation the Ag atom in Ag(P₄)₂ is linearly coordinated by the two electron pairs of the two coordinated PP bonds to give a mainly electrostatic complex. The final small preference for the planar coordination environment of the Ag atom is mediated by an unusual backbonding [dx²-y²(Ag)*(PP)] from the closed 4d¹⁰ shell of silver, which minimizes the unfavorable positive charge on the phosphorus atoms. This shows that nonclassical and weak bonding modes in weak cationic Lewis acid ± base complexes can be stabilized by minimizing the electrostatic cation ± anion interaction between the species.^[1] Furthermore, the analog copper complex is stabilized in our group too.

[1] I. Krossing, L. van Wüllen, Chem. Eur. J. 2002, 8, No .3, 700-711