Mixed Chloride/Phosphine Complexes of the Dirhenium Core. 6. Rare or Unprecedented Isomers of [Re₂Cl₆(PR₃)₂] Stoichiometry

Abstract: Several new paramagnetic dirhenium(II,III) anions of the formula [Re2Cl6P2]- (P2 = (PPrn 3)2 (1), (PEt2Ph)2 (2), dppp (3)) have been isolated in the form of their tetrabutylammonium salts as the kinetic products in reactions of [Re2Cl8]2- with an appropriate phosphine ligand. All three complexes have been characterized in solution by cyclic voltammetry, ESR, and mass spectroscopy. Three different isomeric forms of the [Re2Cl6P2] core have been recognized in the solid state by X-ray crystallography. The known 1… Show more

“…Here, a monoclinic polymorph of 2 has been found as a side product of the above-mentioned reaction. A crystal structure determination for 2 has confirmed the 1,7-disposition of phosphines in the centrosymmetric dirhenium Re 2 Cl 6 P 2 core . There are two independent dimetal units in the cell, one of which is disordered over two orientations with occupancies of 0.92(1) and 0.08(1).…”

Mixed Chloride/Phosphine Complexes of the Dirhenium Core. 8. Synthesis and Crystal Structure of the Quadruply Bonded Dirhenium(III) Anion [Re₂Cl₇(PMe₃)]^-

“…Here, a monoclinic polymorph of 2 has been found as a side product of the above-mentioned reaction. A crystal structure determination for 2 has confirmed the 1,7-disposition of phosphines in the centrosymmetric dirhenium Re 2 Cl 6 P 2 core . There are two independent dimetal units in the cell, one of which is disordered over two orientations with occupancies of 0.92(1) and 0.08(1).…”

Mixed Chloride/Phosphine Complexes of the Dirhenium Core. 8. Synthesis and Crystal Structure of the Quadruply Bonded Dirhenium(III) Anion [Re₂Cl₇(PMe₃)]^-

“…The discovery of the electron-rich Re−Re triple bond as present in complexes of the type Re 2 Cl 4 (PR 3 ) 4 (where PR 3 represents a monodentate tertiary phosphine) − was followed by studies of their electronic structure , and the redox chemistry of multiply bonded dirhenium species of the type Re 2 Cl 6 - x (PR 3 ) 2+ x ( x = 0, 1, or 2). ,− By the mid-1990s the structural chemistry of complexes of these types appeared to be well understood − who have been able to demonstrate that such compounds can be isolated in different isomeric forms. On the basis of the numbering scheme shown in Chart , the following isomers have been isolated and structurally characterized in their cationic, neutral, and / or anionic forms: 1,2,7,8- and 1,3,6,8-[Re 2 Cl 4 (PR 3 ) 4 ], 1,2,7- and 1,3,6-[Re 2 Cl 5 (PR 3 ) 3 ], and 1,6- and 1,7-[Re 2 Cl 6 (PR 3 ) 2 ]. ,,− It was noted that while 1,2- and 1,3- isomers of Re 2 Cl 6 (PR 3 ) 2 were improbable when PR 3 is a monodentate phosphine, by resorting to chelating diphosphines the 1,2-isomer should be isolable .…”

An Intramolecular Disproportionation Reaction Leading to the Formation of the Quadruply Bonded Complex Cl₄ReReCl₂(dppf) (dppf = 1,1‘-Bis(diphenylphosphino)ferrocene). An Example of the Missing 1,3-Re₂Cl₆(PR₃)₂ Isomer

“…Instances of rotational isomerism are rare, and this is by far the most spectacular array. The only prior examples of which we are aware are (1) [Mo 2 Br 6 (H 2 O) 2 ] 2- , which forms eclipsed structures with both C 2 h and C 2 conformations, and (2) [Re 2 Cl 6 (PPr n 3 ) 2 ] - , which is known with C 2 h and C 2 symmetries . There is no prior example of such isomerism for any M 2 X 4 L 4 species.…”

Mixed Chloride/Amine Complexes of Dimolybdenum(II,II). 4. Rotational Isomers of Mo₂Cl₄(R-py)₄(R-py = 4-Picoline, 3,5-Lutidine, and 4-tert-Butylpyridine)