34248-10-7Relevant academic research and scientific papers
The crystal and electronic structure of the complex [ReCl4(PPh3)2]
Dziegielewski,Machura,Bartczak
, p. 2813 - 2817 (1996)
The crystallographic structure of the complex trans-[ReCl4(PPh3)2] was determined and the spectroscopic characterization of the complex was established. Its electronic structure was also investigated (10Dq = 17,889 cm
Unusual reactivity of the {ReVO}3+ core: Syntheses and characterization of novel rhenium halide complexes with N-methyl-o- diaminobenzene
Wei, Lihui,Babich, John W.,Zubieta, Jon
, p. 6445 - 6454 (2008/10/09)
The reactions of 1 or 2 equiv of N-methyl-o-diaminobenzene with trans-[ReOX3(PPh3)2] (X = Cl, Br) in refluxing chloroform gave oxo-free rhenium complexes [ReVIX4(NC 6H4NHCH3
ReCl4(PPh3)2 - Reactions and Structure
Kraudelt, H.,Schilde, U.,Uhlemann, E.
, (2008/10/08)
The compounds ReCl4(PPH3)2 and Re2OCl3(C2H5COO)2(PPh3)2 resulting from the reaction of ReOCl3(PPh3)2 with PPh3 in boiling propionic acid and HClatmosphere were characterized by their VIS-spectra and structural data. Ligand exchange reactions with acetylacetone gave ReCl2(acac)2 as well as ReCl2(acac)PPh3)2. Crystallographic data see "Inhaltsuebersicht".
Formation of mononuclear and dinuclear halide complexes of rhenium from reactions of the polyhydrides Re2H8(PR3)4 and ReH7(PR3)2 with allyl halides and other halogen-containing reagents
Allison, Joe D.,Cameron, Charles J.,Walton, Richard A.
, p. 1599 - 1603 (2008/10/08)
Reactions occur between ReH7(PPh3)2 and the allyl halides C3H5X (X = Cl, Br, and I) to afford the rhenium(IV) salts (Ph3PC3H5)2ReX6; H2 and propene (plus a trace of propane) are the principal gaseous products. Allyl thiocyanate reacts in an analogous fashion. The pentahydride complexes ReH5(PPh3)2L (L = C6H11NH2 and C5H10NH) are also converted to (Ph3PC3H5)2ReCl6, H2, and propene by allyl chloride. The dinuclear core of Re2H8(PPh3)4 is preserved upon reaction with allyl chloride and bromide to give the quadruply bonded dirhenium species (Ph3PC3H5)2Re2X 8 (X = Cl or Br) plus H2 and propene. In contrast to this, the reaction with allyl iodide results in the cleavage of the Re-Re bond and the formation of (Ph3PC3H5)2ReI6. The mononuclear polyhydride complex ReH7(PPh3)2 also reacts with the chlorocarbons CCl4, CHCl3, CH2Cl2, Me3CCl, and C6H5Cl to produce trans-ReCl4(PPh3)2 with the concomitant evolution of H2 and some hydrocarbons. The treatment of Re2H8(PPh3)4 with gaseous hydrogen chloride in methanol is unusual in that crystals of the mixed rhenium(III)-rhenium(IV) salt (Ph3PH)2Re2Cl8-5(Ph 3PH)ReCl5(PPh3) are formed. The course of these reactions is discussed, and the properties of the rhenium-containing complexes are described.
REACTION OF (PPh3)2ReH7 WITH DIENES: PREPARATION AND SOME PROPERTIES OF TRIHYDRO η4-DIENE COMPLEXES OF RHENIU
Baudry, Denise,Ephritikhine, Michael,Felkin, Hugh
, p. 363 - 376 (2007/10/02)
L2ReH7 (L=PPh3) reacts smoothly with acyclic and cyclic dienes to give crystalline, air-stable, trihydrido-Η4-dienerhenium complexes L2(η4-diene)ReH3.The majority of these complexes are fluxional at room temperature; their NMR spectra suggest that at low temperature (-50 deg C) they are pentagonal bipyramidal, with the two phosphine ligands apical and the remaining ligands equatorial.Except for L2(η4-cyclopentadiene)ReH3, which readily loses dihydrogen to give L2(η5-C5H5)ReH, these diene trihydrides are thermally remarkably stable; L2(η4-cyclohexa-1,3-diene)ReH3 loses dihydrogen at >100 deg C to afford L2(η5-cyclohexadienyl)ReH2 and then L2(η6-C6H6)ReH, and L2(η4-butadiene)ReH3 and L2(η4-cycloocta-1,5-diene)ReH3 are stable in air up to 115 and 130 deg C, respectively.Protonation of the trihydrido-η4-diene complexes affords the corresponding saturated hydrocarbons and/or olefins.Hydrogenation of L2(η4-2,3-dimethylbutadiene)ReH3 regenerates the heptahydride L2ReH7.
Stabilization of RN=NN=PR3. Preparation and structural characterization of stable tetraarylphosphazide complexes containing molybdenum and tungsten
Hillhouse, Gregory L.,Goeden, Gary V.,Haymore, Barry L.
, p. 2064 - 2071 (2008/10/08)
The reaction of aromatic azides (R′N3) with MBr2(CO)3(PPh3)2 (M = Mo, W; Ph = C6H5; tol = p-CH3C6H4) in dry methylene chloride at 20°C affords MBr2(CO)3(R′N3PPh3), N2, and R′N =PPh3 (R′ = Ph, tol). The phosphazide complexes exhibit remarkable stability with respect to N2 loss. In contrast to the Mo(II) and W(II) complexes, ReCl3(CH3CN)(PPh3)2 and ReCl3(PPh2Me)3 yield ReCl4(PR3)2 upon treatment with the same aryl azides. Triclinic needles of WBr2(CO)3(tolN3PPh3) were grown from chloroform - ether and crystallized in space group C11-P1 with Z = 2, a = 13.715 (6) A?, b = 9.904 (5) A?, c = 10.397 (5) A?, α = 100.98 (2)°, β = 83.11 (2)°, and γ = 85.80 (1)°. An X-ray diffraction study at -145 (5)°C showed the complex to be monomeric and seven-coordinate. The tolyl azide had inserted into the W-P bond, forming a phosphazide ligand (tolN3PPh3) which is bound to W in a chelating fashion through the α and γ nitrogen atoms; the N3W metallacycle is nearly planar. Salient metrical parameters of the structure include the following: W-N(1) = 2.163 (4) A?, W-N(3) = 2.220 (5) A?, N(1)-N(2) = 1.279 (6) A?, N(2)-N(3) = 1.364 (6) A?, N(3)-P = 1.672 (5) A?, N(1)-C(41) = 1.423 (7) A?; N(1)-W-N(3) = 56.7 (2)°, W-N(1)-N(2) = 102.4 (3)°, W-N(3)-N(2) = 96.8 (3)°, N(1)-N(2)-N(3) = 103.8 (4)°. The full-matrix, least-squares refinement converged to R(F) = 0.028 and Rw(F) = 0.037 for 4066 unique data with Fo2 > 3σ(Fo2).
Reaction of (PPh3)2ReH7 with Dienes: Preparation and Some Properties of Trihydrido η4-Diene and Dihydro η5-Dienyl Complexes of Rhenium
Baudry, Denise,Ephritikhine, Michel
, p. 249 - 250 (2007/10/02)
The title compound reacts with dienes to give trihydrido η4-diene or dihydro η5-dienyl complexes; pyrolysis of the η5-cyclohexadienyl compound (6) gives the hydrido arene complex (7), and protonation of the η4-d
