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1.
The reaction of K[ReH 6(PPh 3) 2] with [RhCl(CO)L 2] [L= PPh 3, 1,2,5-triphenylphosphole (TPP), or P(OMe) 3] leads to the new electronically unsaturated heterobimetallic polyhydride complexes [(CO)(PPh 3) 2HRe(μ-H) 3RhL 2] in moderate-to-good yields. The structures of these complexes have been established on the basis of spectroscopic data, especially 1H and 31P NMR. The bridging hydride ligands are fluxional but there is either a slow or nonexistent exchange between terminal and bridging hydrides. For L = PPh 3 or TPP, protonation with tetrafluoroboric acid affords quantitatively the cationic complexes [(CO)(PPh 3) 2HRe(μ-H) 3RhHL 2] +, isolated as the BF 4− or the BPh 4− salts. 相似文献
2.
The interaction of [(η 5-C 5H 4Bu t) 2YbCl · LiCl] with one equivalent of Li[(CH 2) (CH 2)PPh 2] in tetrahydrofuran gave [Ph 2PMe 2][(η 5-C 5H 4Bu t) 2Li] (1) and [(η 5-C 5H 4Bu t) 2Yb(Cl)CH 2P(Me)Ph 2] (2) in 10% and 30% yields, respectively. 1 could also be prepared in 70% yield from the reaction of [Ph 2PMe 2][CF 3SO 3] with two equivalents of (C 5H 4Bu t)Li. Both compounds have been fully characterized by analytical, spectroscopic and X-ray diffraction methods. The solid state structure of 1 reveals a sandwich structure for the [(η 5-C 5H 4Bu t) 2Li] − anion. 相似文献
3.
Reaction of C 5H 4(SiMe 3) 2 with Mo(CO) 6 yielded [(η 5-C 5H 3(SiMe 3) 2)Mo(CO) 3] 2, which on addition of iodine gave [(η 5-C 5H 3(SiMe 3) 2Mo(CO) 3I]. Carbonyl displacement by a range of ligands: [L = P(OMe) 3, P(OPr i) 3,P(O- o-tol) 3, PMe 3, PMe 2Ph, PMePh 2, PPh 3, P( m-tol) 3] gave the new complexes [(η 5-C 5H 3(SiMe 3) 2 MO(CO) 2(L)I]. For all the trans isomer was the dominant, if not exclusive, isomer formed in the reaction. An NOE spectral analysis of [(η 5-C 5H 3(SiMe 3) 2)Mo(CO) 2(L)I] L = PMe 2Ph, P(OMe) 3] revealed that the L group resided on the sterically uncongested side of the cyclopentadienyl ligand and that the ligand did not access the congested side of the molecule. Quantification of this phenomenon [L = P(OMe) 3] was achieved by means of the vertex angle of overlap methodology. This methodology revealed a steric preference with the trans isomer (less congestion of CO than I with an SiMe 3 group) being the more stable isomer for L = P(OMe) 3. 相似文献
4.
The compounds (π-C 5H 5)(CO) 2LM-X (L = CO, PR 3; M = Mo, W; X = BF 4, PF 6, AsF 6, SbF 6) react with H 2S, p-MeC 6H 4SH, Ph 2S and Ph 2SO(L′) to give ionic complexes [(π-C 5H 5)(CO) 2LML′] + X −. Also sulfur-bridged complexes, [(π-C 5H 5)(CO) 3W---SH---W(CO) 3(π-C 5H 5)] + AsF 6− and [(π-C 5H 5)(CO) 3M-μ-S 2C=NCH 2Ph-M(CO) 3(π-C 5H 5)], have been obtained. Reactions with SO 2 and CS 2 have been examined. 相似文献
5.
Reaction of the bis(dihydrogen) ruthenium complex RuH 2(H 2) 2(PCy 3) 2 (1) with an excess of 9-borabicyclononane yields Ru[(μ-H) 2BC 8H 14] 2(PCy 3) (6) and the phosphine adduct PCy 3·HBC 8H 14. The new complex is characterized by NMR spectroscopy and X-ray diffraction. New X-ray data on 9-BBN dimer, from a measurement at 180 K, are also reported. DFT calculations (B3LYP) on Ru[(μ-H) 2BC 8H 14] 2(PMe 3) (7), the PMe 3 analogue of 6, confirm the ruthenium (II) formulation with two dihydroborate ligands. The data obtained using PH 3 or PMe 3 as models for PCy 3 in PR 3·HBC 8H 14 are also discussed. 相似文献
6.
The hydrothermal reactions of vanadium oxide starting materials with divalent transition metal cations in the presence of nitrogen donor chelating ligands yield the bimetallic cluster complexes with the formulae [{Cd(phen 2) 2V 4O 12]·5H 2O (1) and [Ni(phen) 3] 2[V 4O 12]·17.5H 2O (2). Crystal data: C 48H 52Cd 2N 8O 22V 4 (1), triclinic.
a=10.3366(10), b=11.320(3), c=13.268(3) Å, =103.888(17)°, β=92.256(15)°, γ=107.444(14)°, Z=1; C 72H 131N 12Ni 2O 29.5V 4 (2), triclinic.
a=12.305(3), b=13.172(6), c=15.133(4), =79.05(3)°, β=76.09(2)°, γ=74.66(3)°, Z=1. Data were collected on a Siemens P4 four-circle diffractometer at 293 K in the range 1.59° <θ<26.02° and 2.01°<θ<25.01° using the ω-scan technique, respectively. The structure of 1 consists of a [V 4O 12] 4− cluster covalently attached to two {Cd(phen) 2} 2+ fragments, in which the [V 4O 12] 4− cluster adopts a chair-like configuration. In the structure of 2, the [V 4O 12] 4− cluster is isolated. And the complex formed a layer structure via hydrogen bonds between the [V 4O 12] 4− unit and crystallization water molecules. 相似文献
7.
Reaction of optically active ketone complexes (+)-( R)-[(η 5-C 5H 5)Re(NO)-(PPh 3)(η 1-O=C(R)(CH 3)] + BF 4− (R = CH 2CH 3, CH(CH 3) 2m C(CH 3) 3, C 6H 5) with K(s-C 4H 9) 3BH gives alkoxide complexes (+)-( RS)-(η 5-C 5H 5)Re(NO)(PPh 3)-(OCH(R)CH 3) (73–90%) in 80–98% de. The alkoxide ligand is then converted to Mosher esters (93–99%) of 79–98% de. 相似文献
8.
The ionic coupling of [Os 4H 2(CO) 12] 2− with [Ru( η6-C 6H 6)(MeCN) 3] 2+ affords the neutral mixed metal cluster Os 4Ru( μH) 2(CO) 12( η6-C 6H 6) 1. The reaction of 1 with trimethylphosphite leads to the initial formation of the addition product Os 4Ru( μH) 2(CO) 12( η6-C 6H 6)P(OMe) 3 2, but this complex rearranges in solution to give Os 4Ru( μ-H) 3(CO) 12( μ3- η6-C 6H 5)P(OMe) 3 3. An X-ray structure of 3 shows that the metal core of the cluster is a ruthenium-spiked Os 4 tetrahedron, with one hydrogen atom from the arene having transferred to the Os 4 core, and one arene carbon bridging an Os-Os edge, while the ring as a whole remains η6-bound to the Ru atom. 相似文献
9.
Reactions of the lithium salts of 3-substituted indenes 1, 2 with ZrCl 4(THF) 2 gave two series of nonbridged bis(1-substituted)indenyl zirconocene dichloride complexes. Fractional recrystallization from THF–petroleum ether furnished the pure racemic and mesomeric isomers of [(η 5-C 9H 6-1-C(R 1)(R 2)--- o-C 6H 4---OCH 3) 2ZrCl 2]· nTHF (R 1=R 2=CH 3, n=1, rac-1a and meso-1b; R 1=CH 3, R 2=C 2H 5; n=0.5 or 0, rac-2a and meso-2b), respectively. Complex 1a was further characterized by X-ray diffraction to have a C2 symmetrically racemic structure, where the six-member rings of the indenyl parts are oriented laterally and two o-CH 3O---C 6H 4---C(CH 3) 2--- substituents are oriented to the open side of the metallocene (Ind: bis-lateral, anti; Substituent: bis-central, syn). The four zirconocene complexes are highly symmetrical in solution as characterized by room temperature 1H-NMR, however 1H– 1H NOESY of meso-1b shows that some of the NOE interactions arise from the two separated indenyl parts of the same molecule, which can only be well explained by taking into account the torsion isomers in solution. 相似文献
10.
An unexpected trimanganese(I) tetrathiolate-bridged complex, [Mn 3(CO) 9(μ-SC 6H 5) 4] −, with an incomplete cubane structure, was obtained by thermal reaction of [Mn 2(CO) 10] with [Mo(η 5-C 5H 5) 2(SC 6H 5) 2]. The structure, established by single-crystal X-ray diffraction studies, shows the cation, [Mo(η 5-C 5H 5) 2(H)CO] +, directed towards the vacant site of the cubane structure. Possible routes by which the anion and the cation could be formed are discussed. 相似文献
11.
The new iodoammonium salts o-C 6H 4(NH 2) 2I +I − (1) and o-C 6H 4(NH 2) 2I + AsF 6− (2) were prepared by reaction of o-phenylene diamine with I 2 or I 3+AsF 6−, respectively. Compound 1 reacts with AlI 3 yielding quantitatively the corresponding tetraiodoaluminate o-C 6H 4(NH 2) 2I +AlI 4− (3). The species were characterized by chemical analysis, vibrational (IR and Raman) and temperature-dependent 1H NMR spectropscopy. Direct evidence for a N---I bond was found in the Raman spectra of 1, 2 and 3 (ν(NI) = 599–600 cm −1). 相似文献
12.
The bimetallic [Pt(NH 3) 4] 2[W(CN) 8][NO 3]·2H 2O is characterised by single-crystal X-ray diffraction [S.G. P2 1/ m(11), a=8.0418(7), b=19.122(2), c=9.0812(6) Å, Z=2]. All platinum centres have the square-plane D4h geometry with average dimensions Pt(1)–N 2.042(2) and Pt(2)–N 2.037(10) Å. The octacyanotungstate anion has the square-antiprismatic D4d configuration with average dimensions W(1)–C 2.164(13), C–N 1.140(12), W(1)–N 3.303(5) Å. The structure exhibits two different mutual orientations of Pt versus W units resulting in Pt(2)–W(1), W(1) * separations of 4.77(2), 4.55(2) * and Pt(1)–W(1) of 6.331(8) Å. A centrosymmetric structure reveals groups of two distinct columns: the first is formed by intercalated NO 3− between parallel [Pt(1)(NH 3) 4] 2+ planes and the second consists of [W(CN) 8] 3− interlayered by, parallel to square faces of W-antiprisms, [Pt(2)(NH 3) 4] 2+. The structure is stabilised through a three-dimensional hydrogen bond network via nitrogen atoms of cyanide ligands, hydrogen atoms of NH 3 ligands, water molecules and oxygen atoms of NO 3− counteranions. The vibrational pattern and the range of ν(CN) frequencies attributable to the electronic environment of W(V) and W(IV) are consistent with the ground state Pt(II)↔W(V) charge transfer. 相似文献
13.
Reaction of the optically active primary amine (S)-(—)--methylbenzylamine with trimethylaluminium in heptane affords the crystalline organoaluminium dimer (S)-(—)-(S)-(—)-[(C 6H 5)CH(CH 3)NHA1(CH 3) 2] 2. Isolated as large, colourless, extremely air-sensitive prismatic crystals, the title compound crystallizes in the orthorhombic space group P2 12 12 1 with unit cell parameters a = 8.406(3), b = 15.505(4), c = 17.547(5) Å, V = 2287 Å 3 and p = 1.03 g cm −3 for Z = 4. Least-squares refinement based on 1477 observed reflections converged at R = 0.056, R w = 0.058. Methane was eliminated during the course of the reaction due to cleavage of A1---C and N---H bonds resulting in an asymmetric A1 2N 2 fragment at the core of the organoaluminium dimer. The mean A1---C bond distance in the dimethylaluminium units is 1.930(8), while the mean A1---N bond distance is 1.950(5) Å. Specific rotation ([] D25 in CH 2C1 2)of the dimer is determined to be - 20.6°. 相似文献
14.
The electron donating water soluble phosphines, P{(CH 2) nC 6H 4- p-SO 3Na} 3, n = 1, 2, 3 and 6, react rapidly with Co 2(CO) 8 under two phase reaction conditions to yield the disproportionation products, [Co(CO) 3(P{(CH 2) nC 6H 4- p-SO 3Na 3} 2] [Co(CO) 4]. Selective precipitation yields the formally zwitterionic complex anions as the sodium salt, [Co(CO) 3(P{(CH 2) nC 6H 4- p-SO 3} 3) 2] 5−. The anions can be used as precursors to water soluble cobalt hydroformylation catalysts under two phase and supported aqueous phase conditions. The tendency to form alcohol products is low with these complexes. The behavior of the catalysts is consistent with an active species that remains water soluble during the reaction and is not leached into the nonaqueous phase. 相似文献
15.
IR (4000-30 cm −1) and Raman (4000-0 cm −) spectra of [(CD 3) 3S]I have been observed, together with those of [(CH 3) 3S]I. By assuming a C3v molecular symmetry for the cations [(CH 3) 3S] + and [(CD 3) 3S] +, all the active fundamentals of [(CD 3) 3s] + have been assigned and normal coordinate calculations have been carried out by a symmetry force field for [(CH 3) 3S] + and [(CD 3) 3S] +. The strength of the S---C and C---H bonds in the compound has been compared with that in dimethyl sulfide by using their valence stretching force constants. 相似文献
16.
A series of novel arylantimony(V) triphenylgermanylpropionates with the formula (Ph 3GeCHR 1CHR 2CO 2) nSbAr (5−n) (R 1=H, Ph; R 2=H, CH 3; n=1, 2) were synthesized and characterized by elemental analysis, IR, 1H-NMR, 13C-NMR and mass spectroscopy. The crystal structures of Ph 3GeCH(Ph)CH 2CO 2SbPh 4 and [Ph 3GeCH 2CH(CH 3)CO 2] 2Sb(4-ClC 6H 4) 3 were determined by X-ray diffraction. The in vitro antitumor activities of some selected compounds against five cancer cells are reported. 相似文献
17.
Reaction of trans-[Pt(H) 2(PCy 3) 2], 1, with [60]fullerene at room temperature affords [Pt(PCy 3) 2( η2-C 60)], 2, in nearly quantitative yield. The most probable reaction pattern is the insertion of a fullerene 6,6 junction onto a Pt-H bond yielding an η1 alkyl derivative which, after hydrogen extrusion, gives 2. On the other hand, addition of 1 to different electron-deficient olefins, such as dimethyl maleate and fumarate, furnishes mixtures of both η1 metal—alkyl and η2 metal—olefin derivatives. If tetrachloroethylene is used as 2 π component, trans-[PtCl(H)(PCy 3) 2] forms exclusively. 相似文献
18.
LnCl 3 (Ln=Nd, Gd) reacts with C 5H 9C 5H 4Na (or K 2C 8H 8) in THF (C 5H 9C 5H 4 = cyclopentylcyclopentadienyl) in the ratio of 1 : to give (C 5H 9C 5H 4)LnCl 2(THF) n (orC 8H 8)LnCl 2(THF) n], which further reacts with K 2C 8H 8 (or C 5H 9C 5H 4Na) in THF to form the litle complexes. If Ln=Nd the complex (C 8H 8)Nd(C 5H 9C 5H 4)(THF) 2 (a) was obtained: when Ln=Gd the 1 : 1 complex [(C 8H 8)Gd(C %H 9)(THF)][(C 8H 8)Gd(C 5H 9H 4)(THF) 2] (b) was obtained in crystalline form. The crystal structure analysis shows that in (C8H8)Ln(C5H9C5H4)(THF)2 (Ln=Nd or Gd), the Cyclopentylcyclopentadieny (η5), cyclooctatetraenyl (η8) and two oxygen atoms from THF are coordinated to Nd3+ (or Gd3+) with coordination number 10. The centroid of the cyclopentadienyl ring (Cp′) in C5H9C5H4 group, cyclooctatetraenyl centroid (COTL) and two oxygens (THF) form a twisted tetrahedron around Nd3+ (or Gd3+). In (C8H8)Gd(C5H9C5H4)(THF), the cyclopentyl-cyclopentadienyl (η5), cyclooctatetraenyl (η8) and one oxygen atom are coordinated to Gd3+ with the coordination number of 9 and Cp′, COT and oxygen atom form a triangular plane around Gd3+, which is almost in the plane (dev. -0.0144 Å). 相似文献
19.
The reaction between RMgCl (two equivalents) and 1,2-W 2Cl 2(NMe 2) 4 in hydrocarbon solvents affords the compounds W 2R 2(NMe 2) 4, where R = allyl and 1− and 2-methyl-allyl. In the solid state the molecular structure of W 2(C 3H 5) 2(NMe 2) 4 has C2 symmetry with bridging allyl ligands and terminal W---NMe 2 ligands. The W---W distance 2.480(1) Å and the C---C distances, 1.47(1) Å, imply an extensive mixing of the allyl π-MOs with the WW π-MOs, and this is supported by an MO calculation on the molecule W 2(C 3H 5) 2(NH 2) 4 employing the method of Fenske and Hall. The most notable interaction is the ability of the (WW) 6+ centre to donate to the allyl π *-MO (π 3). This interaction is largely responsible for the long W---W distance, as well as the long C---C distances, in the allyl ligand. The structure of the 2-methyl-allyl derivative W 2(C 4H 7) 2(NMe 2) 4 in the solid state reveals a gauche-W 2C 2N 4 core with W---W = 2.286(1) Å and W---C = 2.18(1) Å, typical of WW and W---C triple and single bonds, respectively. In solution (toluene-d 8) 1H and 13C NMR spectra over a temperature range −80°C to +60°C indicate that both anti- and gauche- W 2C 2N 4 rotamers are present for the 2-methyl-allyl derivative. In addition, there is a facile fluxional process that equilibrates both ends of the 2-methyl-allyl ligand on the NMR time-scale. This process leads to a coalescence at 100°C and is believed to take place via an η 3-bound intermediate. The 1-methyl-allyl derivative also binds in an η 1 fashion in solution and temperature-dependent rotations about the W---N, W---C and C=C bonds are frozen out at low temperatures. The spectra of the allyl compound W 2(C 3H 5) 2(NMe 2) 4 revealed the presence of two isomers in solution—one of which can be readily reconciled with the presence of the bridging isomer found in the solid state while the other is proposed to be W 2(η 3-C 3H 5) 2(NMe 2) 4. The compound W 2R 2(NMe 2) 4 where R = 2,4-dimethyl- pentadiene was similarly prepared and displayed dynamic NMR behaviour explainable in terms of facile η 1 = η 3 interconversions. 相似文献
20.
The crystal structures of propionaldehyde complex ( RS, SR)-(η 5-C 5H 5)Re(NO)(PPh 3)(η 2-O=CHCH 2CH 3)] + PF 6− (1b + PF 6s−; monoclinic, P2 1/ c (No. 14), a = 10.166 (1) Å, b = 18.316(1) Å, c = 14.872(2) Å, β = 100.51(1)°, Z = 4) and butyraldehyde complex ( RS, SR)-[(η 5-C 5H 5)Re(NO)(PPh 3)(η 2-O=CHCH 2CH 2CH 3)] + PF 6− (1c +PF 6−; monoclinic, P2 1/ a (No. 14), a = 14.851(1) Å, b = 18.623(3) Å, c = 10.026(2) Å, β = 102.95(1)°, Z = 4) have been determined at 22°C and −125°C, respectively. These exhibit C
O bond lengths (1.35(1), 1.338(5) Å) that are intermediate between those of propionaldehyde (1.209(4) Å) and 1-propanol (1.41 Å). Other geometric features are analyzed. Reaction of [(η 5-C 5H 5)Re(NO)(PPh 3)(ClCH 2Cl)] + BF 4− and pivalaldehyde gives [(η 5-C 5H 5)Re(NO)(PPh 3)(η 2-O=CHC(CH 3) 3)] +BF 4− (81%), the spectroscopic properties of which establish a π C
O binding mode. 相似文献
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