共查询到20条相似文献,搜索用时 31 毫秒
1.
Michael I. Bruce Paul A. Humphrey Allan H. White 《Journal of organometallic chemistry》2004,689(15):2558-2561
The reaction between AuMe(PPh3) and Ru3(μ-H)3(μ3-CBr)(CO)9 (1) affords the novel heptanuclear cluster Au4Ru3(μ3-CMe)(Br)(CO)9(PPh3)3 (2), containing an Au/Ru3/Au trigonal pyramidal cluster face-capped by two Au(PPh3) groups and a CMe ligand, together with Au2Ru3(μ-H)(μ3-CMe)(CO)9(PPh3)2 (3), formed by isolobal replacement of two of the three μ-H atoms in 1 by Au(PPh3) groups. The latter co-crystallises with the analogous μ3-CH complex, as also shown spectroscopically. 相似文献
2.
3.
Yury Torubaev Pradeep Mathur Alexander Pasynskii. 《Journal of organometallic chemistry》2011,696(4):832-834
Treatment of ruthenium carbonyl, [Ru3(CO)12] with phenylseleno tribromide PhSeBr3 afforded a new triruthenium cluster, [(CO)10Br4Ru3(μ-SePh)2] (1). Its molecular structure was determined by single crystal XRD method (P21/c; a = 10.514(3) Å; b = 10.814(3) Å; c = 19.063(5) Å; β = 105.064(4)°; V = 2093.1(10) Å3) and shown to have two lateral Ru(CO)3Br2 units attached via two PhSe bridges to a Ru(CO)4 center forming a chain-like Ru-Se-Ru-Se-Ru cluster core. This is in contrast with a recently reported reaction of PhTeBr3 with [Ru3(CO)12] which formed a monomeric complex of ruthenium-dicarbonyl-dibromo fragment coordinating two PhTeBr ligands, [(CO)2RuBr2(PhTeBr)2]. 相似文献
4.
A. A. Pasynskii I. V. Skabitskii Yu. V. Torubaev I. M. Krylov G. G. Aleksandrov 《Russian Journal of Coordination Chemistry》2011,37(8):613-618
A reaction of the dimer [Mn(CO)4(SPh)]2 with (PPh3)2Pt(C2Ph2) gave the heterometallic complex (CO)4Mn(μ-SPh)Pt(PPh3)2 (I) and its isomer (CO)3(PPh3)Mn(μ-SPh)Pt(PPh3)(CO) (II). A reaction of complex I with a diphosphine ligand (Dppm) yielded the heterometallic complex (CO)3Mn(μ-SPh)Pt(PPh3)(Dppm) (III). Complexes I–III were characterized by X-ray diffraction. In complex I, the single Mn-Pt bond (2.6946(3) ?) is supplemented with a thiolate bridge with the shortened Pt-S and Mn-S bonds (2.3129(5)
and 2.2900(6) ?, respectively). Unlike complex I, in complex II, one phosphine group at the Pt atom is exchanged for one CO group at the Mn atom. The Mn-Pt bond (2.633(1) ?) and the thiolate
bridge (Pt-S, 2.332(2) ?; Mn-S, 2.291(2) ?) are retained. In complex III, the Mn-Pt bond (2.623(1) ?) is supplemented with thiolate (Pt-S, 2.341(2) ?; Mn-S, 2.292(2) 0?) and Dppm bridges (Pt-P,
2.240(1)?; Mn-P, 2.245(2) ?). Apparently, the Pt atom in complexes I–III is attached to the formally double bond , as in Pt complexes with olefins. 相似文献
5.
Giuliana Gervasio Domenica Marabello Andrea Secco 《Journal of organometallic chemistry》2005,690(16):3730-3736
The title compound has been obtained in considerable yield by reacting Ru3(CO)12 with 2-pentynal-diethyl-acetal [CH3CH2CCC(H)(OEt)2] (PDA) in hydrocarbon solvents. The X-ray analysis shows that the title complex belongs to the well known family of the flyover derivatives. Some X-ray structural studies have been reported, many years ago, on di-iron flyover complexes; in contrast only a few examples of diruthenium derivatives have been structurally characterized.The complex contains ethoxy-groups which could potentially undergo hydrolysis in the presence of tetraethyl-orthosilicate (TEOS) in the presence of catalysts. Reactions of complex Ru2(CO)6[μ-η4-{EtC2C(H)(OEt)2}CO{EtC2C(H)(OEt)2}] with TEOS in the presence of HCl or of NaF (as catalysts) have been attempted. An inorganic-organometallic sol-gel material containing the skeleton of the complex has been obtained and characterized with IR-Raman, XRD on powders and SEM microscopy. 相似文献
6.
Tobias Mayer 《Journal of organometallic chemistry》2011,696(21):3415-3420
A convenient synthesis and the characterization of six new electronically and coordinatively unsaturated complexes of the formula [Ru2(CO)4(μ-H)(μ-PtBu2)(μ-L2)] (2b-g) (RuRu) is described exhibiting a close relation to the known [Ru2(CO)4(μ-H)(μ-PtBu2)(μ-dppm)] (2a). The complexes 2b-g were obtained in a kind of one-pot synthesis starting from [Ru3(CO)12] and PtBu2H in the first step followed by the reaction with the bidentate bridging ligand in the second step. The method was developed for the following bridging ligands (μ-L2): dmpm (2b, dmpm = Me2PCH2PMe2), dcypm (2c, dcypm = Cy2PCH2PCy2), dppen (2d, dppen = Ph2PC(=CH2)PPh2), dpppha (2e, dpppha = Ph2PN(Ph)PPh2), dpppra (2f, dpppra = Ph2PN(Pr)PPh2), and dppbza (2g, dppbza = Ph2PN(CH2Ph)PPh2). The molecular structures of all new complexes 2b−g were determined by X-ray diffraction. 相似文献
7.
María G. Hernández-Cruz Micaela Hernández-Sandoval María J. Rosales-Hoz Verónica Salazar Francisco J. Zuno-Cruz 《Journal of organometallic chemistry》2011,696(10):2177-4078
The reaction between [Ru3(CO)10(NCMe)2] and [AuClPPh3] gave compound [Ru3(CO)10(μ-Cl)(μ-AuPPh3)] (1) in quantitative yield under very mild conditions. The reaction of 1 with 4-mercaptopyridine (4-pyS) using ultrasonic reaction conditions gave the heteronuclear compound [Ru3(CO)10(μ-AuPPh3)(μ-SC5H4N)] (2) in moderate yield. There was no spectroscopic evidence that indicates the formation of the hydride isolobal analog in this reaction. The homonuclear cluster [Ru3(CO)8(μ-H)(μ-SC5H4N)(μ-dppe)] (3) was prepared by a selective reaction employing the ruthenium-diphosphine derivative [Ru3(CO)10(μ-dppe)] (dppe = 1,2-bis(diphenylphosphine)ethane) with 4-pyS in THF solution. The isolobal analog to compound 3, compound [Ru3(CO)8(μ-AuPPh3)(μ-SC5H4N)(μ-dppe)] (4) was synthesized by the reaction between compound 2 and dppe in refluxing dichloromethane. Compounds 1-4 were characterized in solution by spectroscopic methods and the molecular structure of compounds 2 and 3 in the solid state was obtained by single crystal X-ray diffraction studies. 相似文献
8.
Javier A. Cabeza Ignacio del Río Daniel Miguel 《Journal of organometallic chemistry》2007,692(16):3583-3587
The hexaruthenium cluster complexes [Ru6(μ3-H)(μ5-κ2-L)(μ- CO)(CO)15], HL = 2-mercaptopyridine (1) and 2-mercapto-6-methylpyridine (2), have been prepared by heating [Ru3(CO)12] with 0.5 equiv. of HL in THF at reflux temperature. An X-ray diffraction study on a crystal of complex 2 has determined that its metallic skeleton, a basal-edge-bridged square pyramid, is hold up by a (6-methylpyrid-2-yl)thiolate ligand. This ligand is attached to the four basal ruthenium atoms of the pyramid through the sulfur atom and to the edge-bridging ruthenium atom through the nitrogen atom. Such a coordination mode is unprecedented for (pyrid-2-yl)thiolate ligands. 相似文献
9.
Gloria Sánchez-Cabrera Francisco J. Zuno-Cruz María J. Rosales-Hoz 《Journal of organometallic chemistry》2007,692(11):2138-2147
The compound [Os3(CO)10(μ-Cl)(μ-AuPPh3)] (2) was prepared from the reaction between [Os3(CO)10(NCMe)2] (1) and [AuClPPh3] under mild conditions. The reaction of 2 with 4-mercaptopyridine (4-pyS) ligand yielded compounds [Os3(CO)10(μ-H)(μ-SC5H4N)] (4), formed by isolobal replacement of the fragment [AuPPh3]+ by H+ and [Os3(CO)10(μ-AuPPh3)(μ-SC5H4N)] (5). [Os3(CO)10(μ-H)(μ-SC5H4N)] (4) was also obtained by substitution of two acetonitrile ligands in the activated cluster 1 by 4-pyS, at room temperature in dichloromethane. Compounds 2-5 were characterized spectroscopically and the molecular structures of 4 and 5 in the solid state were obtained by single crystal X-ray diffraction studies. 相似文献
10.
Yu. V. Torubaev A. A. Pasynskii P. Mathur 《Russian Journal of Coordination Chemistry》2009,35(11):807-811
Reactions of Ru3(CO)12 with PhTeBr3 and of Re(CO)5Cl with PhTeI in benzene give the stable complexes (CO)2RuBr2(PhTeBr)2 (I) and (CO)3Re(PhTeI)3(μ3-I) (II) containing two and three ligands PhTeX (X = Br or I), respectively. The bonds between these ligands and the central metal
atom are fairly shortened (on average, Ru-Te, 2.608 ?; Re-Te, 2.7554(12)-2.7634(13) ?). The Te-X bonds in the ligands PhTeBr
(2.5163(5) ?) and PhTeI (2.7893(15) ?) are not lengthened appreciably. In complex II, the iodide anion is not coordinated by rhenium, yet being attached through weak secondary bonds to three Te atoms of the
three ligands PhTeI. 相似文献
11.
Md. Iqbal Hyder Md. Delwar H. Sikder Graeme Hogarth Shariff E. Kabir Christian J. Richard 《Journal of organometallic chemistry》2009,694(2):304-174
Reaction of [Ru3(CO)10(μ-dppm)] (1) with H2S at 66 °C affords high yields of the sulfur-capped dihydride [Ru3(CO)7(μ-H)2(μ-dppm)(μ3-S)] (2), formed by oxidative-addition of both hydrogen-sulfur bonds. Hydrogenation of [Ru3(CO)7(μ-dppm)(μ3-CO)(μ3-S)] (3) at 110 °C also gives 2 in similar yields, while hydrogenation of [Ru3(CO)7(μ-dppm)(μ3-CO)(μ3-Se)] (4) affords [Ru3(CO)7(μ-H)2(μ-dppm)(μ3-Se)] (5) in 85% yield. The molecular structures of 2 and 5 reveal that the diphosphine and one hydride simultaneously bridge the same ruthenium-ruthenium edge with the second hydride spanning one of the non-bridged edges. Both 2 and 5 are fluxional at room temperature being attributed to hydride migration between the non-bridged edges. Addition of HBF4 to 2 affords the cationic trihydride [Ru3(CO)7(μ-H)3(μ-dppm)(μ3-S)][BF4] (6) in which the hydrides are non-fluxional due to the blocking of the free ruthenium-ruthenium edge. 相似文献
12.
T. Yu. Glazunova A. I. Boltalin S. I. Troyanov 《Russian Journal of Coordination Chemistry》2005,31(4):247-252
Novel anhydrous trinuclear 3-oxo complexes of Cr(III), Cr3(3-O)(CF3COO)6(CH3COOH)2(CF3COO) (I) and of Cr(III,III,II), Cr3(3-O)(CF3COO)6(CH3COOH)2(THF) (II) (where THF is (CH2)4O) are synthesized by anodic dissolution of metallic chromium in solutions of trifluoroacetic acid in acetonitrile and in tetrahydrofuran and their structures are studied by X-ray diffraction analysis. Complex I forms orthorhombic crystals with space group Pna21, a = 9.778(1) , b = 16.042(2) , c = 22.851(4) , Z = 4, R
1 = 0.0332; complex II crystallizes in monoclinic system: space group P21/c, a = 9.866(1) , b = 17.895(2) , c = 21.167(4) , = 100.75(2)°, Z = 4, R = 0.0422. The average Cr-(3-O) distances in compounds I and II are almost equal (1.943(3) and 1.927(3) ). An average length of the Cr-O bond in octahedral surrounding of metal atoms is different in complexes I and II (1.985(4) and 2.003(3) , respectively), which is specified by different oxidation states of the metal atom. The CrCr distances lie in an interval of 3.366(1)–3.337(1) .__________Translated from Koordinatsionnaya Khimiya, Vol. 31, No. 4, 2005, pp. 266–272.Original Russian Text Copyright © 2005 by Glazunova, Boltalin, Troyanov. 相似文献
13.
I. Yu. Prikhod’ko V. P. Kirin V. A. Maksakov A. V. Virovets A. V. Golovin 《Journal of Structural Chemistry》2008,49(4):719-723
The complex Ru4(μ4-S)(μ,η3-C3H5)2(CO)12 is prepared and examined by IR and NMR spectroscopy; its crystal structure is determined (an automatic Bruker-Nonius X8 Apex
four-circle diffractometer equipped with a 2-D CCD-detector, 100 K, graphite-monochromated molybdenum source, λ = 0.71073
?). The crystal belongs to the orthorhombic crystal system with unit cell parameters a = 19.3781(9) ?, b = 12.2898(7) ?, c = 10.1726(4) ?, V = 2422.6(2) ?3, space group Pnma, Z = 4, composition C18H10O12Ru4S, d
x = 2.343 g/cm3. The molecule of point symmetry C
1 is situated on the mirror plane of the space group Pnma, two carbonyl groups at Ru2 and Ru3 atoms overlapping with the allylic ligand with a weight of 50% so that carbon atoms coincide.
Thus, we have a racemic structure with two overlapping enantiomers of the molecule of Ru4(μ4-S)(μ,η3-C3H5)2(CO)12.
Original Russian Text Copyright ? 2008 by I. Yu. Prikhod’ko, V. P. Kirin, V. A. Maksakov, A. V. Virovets, and A. V. Golovin
__________
Translated from Zhurnal Strukturnoi Khimii, Vol. 49, No. 4, pp. 748–752, May–June, 2008. 相似文献
14.
Reactions of [(dtc)2Mo2(S)2(μ-S)2] with one or two equivalents of CuBr in CH2Cl2 afforded two new heterobimetallic sulfide clusters, [(dtc)2Mo2(μ3-S)(μ-S)3(CuBr)] (1) and [(dtc)2Mo2(μ3-S)4(CuBr)2] (2). Both compounds were characterized by elemental analysis, IR, UV-vis and X-ray analysis. Compound 1 contains a butterfly-shaped Mo2S4Cu core in which one CuBr unit is coordinated by one bridging S and two terminal S atoms of the [(dtc)2Mo2(S)2(μ-S)2] moiety. In the structure of 2, one [(dtc)2Mo2(S)2(μ-S)2] moiety and two CuBr units are held together by six Cu-μ3-S bonds, forming a cubane-like Mo2S4Cu2 core. 相似文献
15.
Van An Du Gregor N. Stipicic Maria Bendova Ulrich Schubert 《Monatshefte für Chemie / Chemical Monthly》2010,10(2):671-675
Abstract
Thermolysis of cis-Fe(CO)4(SiCl3)2 results in the formation of the novel compound Fe2(CO)6(μ2-SiCl2)3, which was characterized by single crystal X-ray diffraction. Density functional theory calculations were carried out to elucidate possible reaction steps leading to the formation of Fe2(CO)6(SiCl2)3, including CO dissociation and chlorine abstraction by a SiCl3 radical generated from homolytic Fe–Si bond cleavage involving a singlet–triplet intersystem crossing. 相似文献16.
Todd W. Graham 《Journal of organometallic chemistry》2007,692(21):4481-4485
The reaction of CpTi(μ2-Me)(μ2-NPi-Pr3)(μ4-C)(AlMe2)3 with ClSnMe3 and MeO3SCF3 affords the species CpTi(μ2-Cl)(μ2-NPi-Pr3)(μ4-C)(μ2-Cl)(AlMe)(AlMe2)21 and CpTi(μ2-Me)(μ2-NPi-Pr3)(μ4-C)(μ2-O3SCF3)(AlMe)(AlMe2)22, respectively. Both 1 and 2 have been structurally characterized. 相似文献
17.
Oxo/hydoxo zirconium(IV) complex of the general formula [Zr6(μ3-O)4(μ3-OH)4(OOCCH2tBu)9(μ2-OH)3]2 has been isolated, when Zr(OiPr)4 reacted with a 2-fold excess of 3,3-dimethylbutyric acid. Single crystal X-ray diffraction data, collected at 103 and 153 K, showed that the studied compound crystallizes in hexagonal system (P63/m (no. 176)). Structure consists of dimers composed of [Zr6(μ3-O)4(μ3-OH)4(OOCCH2tBu)9] sub-units, linked by six μ2-OH bridges. Infrared spectroscopic studies proved the presence of hydroxo groups in the structure of studied clusters and formation of different types of oxo/hydroxo bridges. The application of variable temperature infrared spectroscopy and differential scanning calorimetry revealed that the structure of this complex undergoes the phase transitions at 143–183 and 203–293 K. Comparison of spectral and crystallographic data suggests that these phase transitions might be related to changes in the strength of Zr–O bonds of μ2-OH bridges linking complex sub-units, and change in symmetry of the crystal lattice (from hexagonal to trigonal). Analysis of thermogravimetric data showed that decomposition of [Zr6(μ3-O)4(μ3-OH)4(OOCCH2tBu)9(μ2-OH)3]2 proceeds with complete conversion to ZrO2 (monoclinic form) between 603 and 803 K. 相似文献
18.
Li-Cheng Song Hua-Wei Cheng Qing-Mei Hu Zhi Wang 《Journal of organometallic chemistry》2004,689(1):139-145
The monoanions (η5-RC5H4)(CO)3Cr− (1, R=H; 2, R=Me; 3, R=CO2Et) reacted with tetrahedral cluster FeCo2(μ3-S)(CO)9 to give single isolobal displacement products (η5-RC5H4)FeCrCo(μ3-S)(CO)8 (4, R=H; 5, R=Me; 6, R=CO2Et) in 86-89% yields, whereas monoanion (η5-RC5H4)(CO)3Cr− (7, R=C(O)Me) reacted with FeCo2(μ3-S)(CO)9 to afford the expected single isolobal displacement product (η5-RC5H4)FeCrCo(μ3-S)(CO)8 (8, R=C(O)Me) in 5% yield and an unexpected square pyramidal cluster FeCo2(μ3-S)2(CO)9 (9) in 45% yield. Similarly, the dianions [η5-C5H4CH2(CH2OCH2)nCH2C5H4-η5][(CO)3Cr−]2 (10, n=1; 11, n=2; 12, n=3) reacted with two molecules of FeCo2(μ3-S)(CO)9 to produce double isolobal displacement products [η5-C5H4CH2(CH2OCH2)nCH2C5H4-η5][FeCrCo(μ3-S)(CO)8]2 (13, n=1; 14, n=2; 15, n=3) in 32-36% yields, while treatment of dianion [η5-C5H4C(O)CH2]2[(CO)3Cr−]2 (16) with two molecules of FeCo2(μ3-S)(CO)9 gave the unexpected square pyramidal cluster FeCo2(μ3-S)2(CO)9 (9) in 42% yield and the corresponding double isolobal displacement product [η5-C5H4C(O)CH2]2[FeCrCo(μ3-S)(CO)8]2 (17) in 8% yield. Products 4-6, 8, 9, 13-15 and 17 were characterized by elemental analyses, IR and 1H NMR spectroscopy, as well as for 4, 6 and 9 by X-ray diffraction techniques. 相似文献
19.
Dafa Chen 《Journal of organometallic chemistry》2006,691(18):3823-3833
Thermal treatment of C9H7SiMe2C9H7 and C9H7Me2SiOSiMe2C9H7 with Ru3(CO)12 in refluxing xylene gave the corresponding diruthenium complexes (E)[(η5-C9H6)Ru(CO)]2(μ-CO)2 [E = Me2Si (1), Me2SiOSiMe2 (2)]. A desilylation product [(η5-C9H7)Ru(CO)]2(μ-CO)2 (3) was also obtained in the latter case. Similar treatment of C9H7Me2SiSiMe2C9H7 with Ru3(CO)12 gave a novel indenyl nonanuclear ruthenium cluster Ru9(μ6-C)(CO)14(μ3-η5:η2:η2-C9H7)2 (5) with carbon-centered tricapped trigonal prism geometry, in addition to the diruthenium complex (Me2SiSiMe2)[(η5-C9H6)Ru(CO)]2(μ-CO)2 (4) and the desilylation product 3. Complex 4 can undergo a thermal rearrangement to form the product [(Me2Si)(η5-C9H6)Ru(CO)2]2 (6). The molecular structures of 1, 2, 4, 5, and 6 were determined by X-ray diffraction. 相似文献
20.
A new polymer azido-bridged copper(II) complex [Cu4(En)2(μ1,1-N3)4(μ1,1,1-N3)2(μ1,3-N3)2]
n
(I) (En = ethylenediamine) has been synthesized and crystallography characterized. Complex I shows one-dimensional coordination polymeric structure based on a tetranuclear cluster unit [Cu4(En)2(μ1,1-N3)4(μ1,1,1-N3)2(μ1,3-N3)2], in which the azido ions display three different bridging modes. 相似文献