The coordination chemistry of selenophosphite ligands. Synthesis and characterization of heterometallic tetranuclear clusters [M{CpFe(CO)2P(Se)(OR)2}3](PF6) (M = Cu, Ag; R = nPr, iPr) and [Cu(μ-X) {CpFe(CO)2P(Se)(OiPr)2}]2 (X = Cl, Br)

Abstract: A neutral selenium donor ligand, [CpFe(CO)(2)P(Se)(OR)(2)] is used for the construction of Cu(I) and Ag(I) complexes with a well-defined coordination environment. Four clusters [M{CpFe(CO)(2)P(Se)(OR)(2)}(3)](PF(6)), (where M = Cu, R = (n)Pr, ; R = (i)Pr, and M = Ag, R = (n)Pr, ; R = (i)Pr, ) are isolated from the reaction of [M(CH(3)CN)(4)(PF(6))] (where M = Cu or Ag) and [CpFe(CO)(2)P(Se)(OR)(2)] in a molar ratio of 1 : 3 in acetonitrile at 0 degrees C. The reaction of [CpFe(CO)(2)P(Se)(O(i)Pr)(2)] with cupr… Show more

Unexpected One‐Electron Oxidation of a Secondary Phosphite Selenide Cp(CO)₂FeP(Se)(OiPr)₂ by GaCl₃ and InCl₃ – Rare Examples of Di‐ and Triselenide Formation

Unexpected One‐Electron Oxidation of a Secondary Phosphite Selenide Cp(CO)₂FeP(Se)(OiPr)₂ by GaCl₃ and InCl₃ – Rare Examples of Di‐ and Triselenide Formation

Potential rhodium and ruthenium carbonyl complexes of phosphine-chalcogen (P-O/S/Se) donor ligands and catalytic applications

Recent progress in the chemistry of anionic groups 6–8 carbonyl chalcogenide clusters