Rosa María Sanz‐Carrillo scite author profile

The neutral, five-coordinate platinum nitrosyl compounds [Pt(C(6)F(5))(3)(L)(NO)] (2) [L=CNtBu (2 a), NC(5)H(4)Me-4 (2 b), PPhMe(2) (2 c), PPh(3) (2 d) and tht (2 e)] have been prepared by the reaction of [NBu(4)][Pt(C(6)F(5))(3)(L)] (1) with NOClO(4) in CH(2)Cl(2). The ionic compound [N(PPh(3))(2)][Pt(C(6)F(5))(4)(NO)] (4) has been prepared in a similar way starting from the homoleptic species [N(PPh(3))(2)](2)[Pt(C(6)F(5))(4)] (3). Compounds 2 and 4 are all diamagnetic with [PtNO](8) electronic configuration and show nu(NO) stretching frequencies at around 1800 cm(-1). The crystal and molecular structures of 2 c and 4 have been established by X-ray diffraction methods. The coordination environment for the Pt center in both compounds can be described as square pyramidal (SPY-5). Bent nitrosyl coordination is observed in both cases with Pt-N-O angles of 120.1(6) and 130.2(7) degrees for 2 c and 4, respectively. The bonding mechanism of the nitrosyl ligand coordinated to various model [Pt(II)R(4)](2-) (R=H, Me, Cl, CN, C(6)F(5) or C(6)Cl(5)) and [Pt(C(6)F(5))(3)(L)](-) (L=CNMe, PH(3)) systems has been studied by density functional calculations at the B3LYP level of theory, using the SDD basis set. The R(4)Pt-NO and (C(6)F(5))(3)(L)Pt-NO interactions generally involve two components: i) a direct Pt-NO bonding interaction and ii) multicenter-bonding interactions between the N atom of the NO ligand and the donor atoms of the R and L ligands. Moreover, with the more complex R groups, C(6)F(5) or C(6)Cl(5), a third component has been found to arise, which involves multicenter electrostatic interactions between the positively charged NO ligand and the negatively charged halo-substituents in the ortho-position of the C(6)X(5) groups (X=F, Cl). The contribution of each component to the Pt-NO bonding in R(4)Pt-NO and (C(6)F(5))(3)(L)Pt-NO compounds seems to be modulated by the electronic and steric effects of the R and L ligands.

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Synthesis and Structural Characterization of the Bent Nitrosyl Organometallic Complex [NBu₄][Pt(C₆Cl₅)₂Cl₂(NO)]

Forniés

Menjón

Sanz‐Carrillo

et al. 1994

Chem. Ber.

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The title complex has been prepared in 36% yield by reaction of [NBu41Z[ t r a n~-P t ( C~C l~) ~C l , ] with NOC104 (1 : 1) in CH2C12. The anion exhibits an almost tetragonal-pyramidal geometry (X-ray analysis), the platinum atom being virtually located in the basal plane and the N O ligand occupying the apical position. The Pt-N-0 unit is bent [ 119.5(8)O].Nitrosyl-metal complexes constitute a well-defined area in inorganic chemistry, which has been extensively studied and reviewed [']. The early bonding model based on the NO+/NOhas been largely superseded by calculation techniques relying on the MO correlation This approach has proven remarkably successful in comprehensively rationalizing both the structure and the reactivity of the known nitrosyl-metal complexes. The surprisingly few reports on mononuclear nitrosyl complexes of platinum['] and our previous findingsr41 about the anomalous geometry of the complex [NBU,][P~(C~C~~)~(NO)] have prompted us to extend our studies to other related anionic platinum substrates.

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