Reaction of [Pt{Fe(CO)3(NO)}2(PhCN)2] with diphenyl(2-pyridyl)phosphine selenide. Crystal structure of [(CO)3Fe(μ3-Se){Pt(CO)P(2-C5H4N)Ph2}2] and its theoretical study

The reaction between the linear trinuclear complex Pt{Fe(CO)₃(NO)}₂(PhCN)₂] and Ph₂(2-C₅H₄N)PSe led to the isolation and characterization of the 46-electron cluster (CO)₃Fe(μ₃-Se){Pt(CO)P(2-C₅H₄N)Ph₂}₂] (1), whose structure has been determined by X-ray diffraction methods. The cluster typology, which consists of an open triangle Pt---Fe---Pt capped by a μ₃-Se atom, is rather rare. The chemical bonding in 1 and in similar systems has been analyzed through density functional theory (DFT) and qualitative MO approaches. A strict analogy with the well understood L₂M(μ-acetylene)ML₂ systems is invoked by considering 1 as formed by the (CO)₃FeSe tetrahedral unit stabilized by sidewise interactions of the triple bond with two d¹⁰-L₂M fragments. Otherwise, the 18-electron (CO)₃FeSe monomer is unstable as an isolate molecule. This is confirmed by our DFT calculations that indicate how the well characterized dimer (CO)₃Fe(μ-Se₂)Fe(CO)₃ lies as much as, approximately, 58 kcal mol^?1 deeper in energy. Finally, by considering an analogy with L₂M(μ-dichalcogen)ML₂]^{0, +2} redox systems (M=Pd, Pt), reduction of 1 to a dianion has been hypothesized and the structure of the latter has been tentatively explored by DFT calculations.