Crystal Structure of {(PPh_3)_2RuB_(10)H_8[(CH_3)_2CHO]_2}

1INTRODUCTIONFromreactionsof[RuCl,(PPh,),jwithcloso-[B,,H,,j'-respectivelyinEtOH/CH,Cl,t'i,CH,COOH/THF"'andC,H,COOH/CH,Cl,">solution,itcanbefoundthatbothalcoholandorganicacidcanreplacehydrogenatomsinborane.Further-more,accordingtotheirdifferentreactiontime(3h,1OOhand113hrespectively),wecanknowthatalcoholismoreactivetoreplacehydrogenatomsinborane.NowinordertoconfirmthisrulefurtherweusePhCH(OH)COOH/(CH3)2CHOHsolutioninsteadofabove-mentionedsolutions.Newcompounds(I)and(II…     

Synthesis and Crystal Structure of Dinuclear Copper Cluster Compound ［Cu（dtp）PPh_3］_2

ＳｙｎｔｈｅｓｉｓａｎｄＣｒｙｓｔａｌＳｔｒｕｃｔｕｒｅｏｆＤｉｎｕｃｌｅａｒＣｏｐｐｅｒＣｌｕｓｔｅｒＣｏｍｐｏｕｎｄ［Ｃｕ（ｄｔｐ）ＰＰｈ_３］_２ＣｈｅｎＱｉｕ－Ｈｕａ；ＬｕＳｈａｏ－Ｆａｎｇ；ＨｕａｎｇＸｉａｏ－Ｙｉｎｇ（ＳｔａｔｅｋｅｙＬａｂ...     

[(O)MoCu_3(μ_3-S)_3(μ_3-Cl)(PPh_3)_3]·2THF的合成及其晶体结构

固体化合物(NH_4)_6Mo_7O_(24)·4H_2O和(PPh_3)_2CuCl与饱和液体NH_4HS反应获得桔红针状标题晶体。晶体空间群为P2_1/c,晶胞参数a=11.742(2),b=28.186(7),c=19.304(3),β=100.57(2)°,V=6280.4(?)~3,D_c=1.46g/cm~3,Z=4,F(000)=2816。在3≤2θ≤45°范围内收集到8414个独立衍射强度数据,其中3856个I≥1.5σ(I)强度数据参加结构计算。标题化合物分子是以{MoCu_3S_3Cl}类立方烷型簇为核心的分子,Mo—Cu的平均距离为2.716。     

Synthesis and Crystal Structure of {(PPh3)2ClRu(μ-Cl)-Ru(PPh3)B10H7[OCH(CH3)2]3}·0.4(H2O)

The title compound has been synthesized by the reaction of [RuCl2(PPh3)3] and closo-[B10H10]2- in (CH3)2CHOH solution. Crystals suitable for a single crystal X-ray diffraction analysis were obtained from n-pentane diffused to CH2Cl2 solution. The crystal {(PPh3)2ClRu(μ-Cl)Ru(PPh3)B10H7[OCH(CH3)2]3}·0.4(H2O) is monoclinic , space group P21/n , Mr=1359.47, with a=19.434(4), b =14.340(4), c=25.865(9)(A), β= 95.48(3)°, V=7175(4)(A)3, Dc=1.258 g/cm3, Z=4, λ(MoKα)=0.71073(A),μ=6.03 cm-1, F(000)=2784, R=0.0631, wR2= 0.1425, S=1.001. The title compound is a bimetallic species in which the second ruthenium center is bound to the cluster {(PPh3)RuB10H7[OCH(CH3)2]3} via an Ru-Cl-Ru and two Ru-H-B-Ru bridges. The third isoproxy group replaces a hydrogen atom on B(10) of the cage, which indicates the activity of the cage.     

SYNTHESIS AND STRUCTURE OF trans-RuCPh_2PN(i-Bu)PPh_2]_2Cl_2

<正> The reaction of Ru(DMSO)4Cl2 and Ph2PN (i-Bu)Ph2(1:2) gave the title compound, trans-RuCPh2PN(i-Bu)PPh2]2Cl2. Crystallographic data for C56 H58Cl2N2P4Ru: triclinic, space group P1, a = 11. 575(1), b = 12. 193(3), c = 20. 297(4)A, α=75. 30(2),β=76.28(1),γ= 72. 08(2)°, V = 2596. 6(8)A3, Z = 2, Mr = 1054. 97, Dc=1. 35g/cm3,μ(MoKa) = 5. 58cm-1, F (000) = 1092; R = 0. 046 and Rw = 0. 056 for 3411 observed reflections. The Ru atom is coordinated by four P atoms and two Cl atoms, forming an octahedral configuration.     

Synthesis,Structure and Electrochemistry of Triruthenium Cluster Complex [Ru_3(μ_3- O)(μ-CH_3CO_2)_6(py)_2(PPh_2py)](PF_6)·CH_2Cl_2

1 INTRODUCTION The transition metal cluster complexes exhi- biting multistep redox processes have attracted more and more attention because of their potential applications in the areas of photonic and electronic devices[1～4]. The oxo-centered carboxyla…     

Synthesis and Crystal Structure of a Novel Heptanuclear Ruthenium- and Sodium-containing Polyoxomolybdate [{Na(H_2O)_3}_2{Ru(dmso)_3}_2(MoO_4)_3]·_3H_2O

1 INTRODUCTION Polyoxomolybdates have been of great interest due to their unique structural varieties, associated multitude of properties and applications as catalysis, medicine and material[1, 2]. One of the most impor- tant aspects is the synthesis and investigation of the materials on polyoxomolybdates containing organo- metallic groups[3～5]. Such materials can provide molecular models for heterogeneous catalysis and display cooperative effects or bifunctional catalytic activity[6]. O…     

Synthesis and Structural Characterizations of the Heteronuclear Cubane－like Cluster W_2Ag_2S_4（tdt）_2（PPh_3）_2·CH_2Cl_2

ＳｙｎｔｈｅｓｉｓａｎｄＳｔｒｕｃｔｕｒａｌＣｈａｒａｃｔｅｒｉｚａｔｉｏｎｓｏｆｔｈｅＨｅｔｅｒｏｎｕｃｌｅａｒＣｕｂａｎｅ－ｌｉｋｅＣｌｕｓｔｅｒＷ_２Ａｇ_２Ｓ_４（ｔｄｔ）_２（ＰＰｈ_３）_２·ＣＨ_２Ｃｌ_２ＹＵＲｏｎｇ－Ｍｉｎ；ＬＵＳｈａｏ－Ｆ...     

MOLECULAR AND CRYSTAL STRUCTURE OF (μ-HOCH_2 CH_2 S)_2 Fe_2 (CO)_4(PPh_3)_2

<正> The molecular and crystal structure of the complex (μ-HOCH2CH2-S)2 Fe2(CO)4(PPh3)2 synthesized by reaction of ethylene epoxide with (μ-Lis)2Fe2(CO)6, followed by EtOH alcoholysis and PPh3 substitution,was determined by X-ray diffraction technique. The crystals are triclinic,space group P 1,with a= 10. 902(2),b=12. 106 (2),c=16. 123(4) A ,V= 2079. 36A3,α=78. 13(1),β=89. 37(2),γ=87. 93(1)°, Z = 2,Dx=1. 44 g/cm3.μ(MoKa) = 9. 149cm-1, F(000) = 940. The final R and Rw equal to 0. 055 and 0. 068,respectively,for 3598 observed independent reflections. In this molecule two PPh3 ligands are trans to the Fe - Fe bond and axially coordinated to two iron atoms. In addition,two hydroxylethyl groups are attached to bridging sulfur atoms by e-type of bond and thus this molecule is an ee conformer.     

盖帽三核钴羰基簇合物(μ_3-CH_3C)Co_3(CO)_7(μ-PPh_2CH_2PPh_2)和(μ_3-CH_3C)Co_3(CO)_9的质谱研究

本文从结构化学角度,阐述了标题化合物的EI质谱断裂行为。这些化合物的分子离子基本上按分步断裂分别失去羰基,直至获得[CH_3CCo_3(PPh_2CH_2PPh_2)]~+和[CH_3CCo_3]~+。然后,这些残基和含膦配体继续断裂,失去Ph、PhP、Ph_3P、C_7H_7、C_6H_6、C_2H_2、H_2和Co等,生成各种相应的三核、二核和单核钴的碎片离子。     

Synthesis and Structural Characterization of a New Polyoxovanadium Borate: (H_3NCH_2CH_2NH_3)_4[(VO)_6(B_(10)O_(22))_2]·(H_3O)_7

1 INTRODUCTION Transition metal oxide clusters and their deriva- tives offer an unmatched variety of structural motifs and wide ranging applications in several areas, such as analytical chemistry, materials science and cataly- sis, nanotechnology, chemical sensing, environmental decontamination, biochemical and geochemical pro- cesses, and medicine[1～3]. Polyoxovanadates or vana- dium oxide clusters constitute an important subclass of polyoxometalates and have been studied exten- sively.…     

Synthesis and Crystal Structure of Nido 11-Vertex Platinaborane [ （PPh3）2PtB10H10-9,10-（H0.7Cl0.3）2]

The reaction of PtCl2（PPh3）2 with closo-[B10H10]^2- in t-BuOH under reflux （70 h） unexpectedly afforded the nido 11-vertex platinaborane [（PPh3）2PtB 10H10-9,10-（H0.7Cl0.3）2] 1, which was characterized by single-crystal X-ray diffraction study. Crystallographic data for 1： C36H41.40B10Cl0.60P2Pt, Mr = 860.49, triclinic system, space group P1, a = 11.255（2）, b = 11.623（2）, c = 17.148（3）A, α = 81.012（2）, β = 88.115（3）, γ=64.322（2）°, V= 1995.4（7）A^3, Z= 2, Dc = 1.432 g/cm^3, μ（MoKα） = 3.662 mm^-1, F（000） = 851, R = 0.0358 and wR = 0.0951. Compound 1 has a nido 11-vertex {PtB10} polyhedral skeleton with the Pt atom lying in the open PtB4 face and further ligating to two PPh3 ligands. 1 is partially chlorinated at positions B（9） and B（10）, and for each chlorine atom an occupancy factor of 0.3 is given by crystallography.     

Synthesis and Crystal Structure of ｛( P Ph_3)_2 Cl Ru( μ- Cl) Ru( P Ph_3) B_(10)H_7〔 O C H( C H_3)_2〕_3｝·0 .4( H_2O)

１　ＩＮＴＲＯＤＵＣＴＩＯＮＴｈｅｆｉｒｓｔｐｏｌｙｈｅｄｒａｌｒｕｔｈｅｎａｂｏｒａｎｅｉｓｓｔｒｕｃｔｕｒａｌｌｙｔｙｐｉｆｉｅｄｂｙｔｈｅｃｏｍｐｏｕｎｄ〔（ＰＰｈ３）２ＲｕＢ１０Ｈ８（ＯＥｔ）２〕ｉｎ１９８４〔１〕,ｗｈｉｃｈｉｓｏｂｔａｉｎｅｄｉｎ４０％ｙｉｅｌｄｂｙｔｈｅｒｅａｃｔｉｏｎｏｆｔｈｅｃｌｏｓｏｄｅｃａｂｏｒａｎｅａｎｉｏｎＢ１０Ｈ１０２－ｗｉｔｈ〔ＲｕＣｌ２（ＰＰｈ３）３〕ｉｎｅｔｈａｎｏｌ／ｃｈｌｏｒｏｆｏｒｍｓｏｌｕｔｉｏｎ．Ｒｅｓｅａｒｃｈｅｒｓｈａｖｅｓｙ…     

31~P NMR Studies on Quasi-Aromaticity of Mo_3S_3 Core and Structure of {Mo_3(μ_3-S)_3[μ-SOP(OEt)_2][S_2P(OEt)_2]_3(CH3CN)}*CH_3CN

1INTRoDUCTIoNDuringthisdecade,extensivestudieshavebeendoneontheclustercompoundswithMosS`coret1}.Wehavedevelopedanewmethodtosynthesizeaseriesof[Mo,o.S'-.J' ,n=O,l,2,3,inaqueoussolution(2).BythereactionofaqueousclusterionswithHdtp,weobtainedtheircorrespondingcompoundswhichwerefirst-lysynthesizedbythespontaneousself-assemblymethod.Theseaqueousclusterionsandtheirderivativescoordinatedbyorganicligands,bothinaqueousphaseandnon-aqueoussolution,demonstratedreactiveactivitiestowardsmanytransitio…     

Substitution, cage functionalization, and oxidation of the charge-compensated triruthenium monocarbollide cluster complex [1-SMe2-2,2-(CO)2-7,11-(mu-H)2-2,7,11-{Ru2(CO)6}-closo-2,1-RuCB10H8

The compound [1-SMe2-2,2-(CO)2-7,11-(mu-H)2-2,7,11-{Ru2(CO)6}-closo-2,1-RuCB10H8] 1a reacts with PMe3 or PCy3(Cy = cyclo-C6H11) to give the structurally different species [1-SMe2-2,2-(CO)2-7,11-(mu-H)2-2,7,11-{Ru2(CO)5(PMe3)}-closo-2,1-RuCB10H8] 4 and [1-SMe2-2,2-(CO)2-11-(mu-H)-2,7,11-{Ru2(mu-H)(CO)5(PCy3)}-closo-2,1-RuCB10H8]5, respectively. A symmetrically disubstituted product [1-SMe2-2,2-(CO)2-7,11-(mu-H)2-2,7,11-{Ru2(CO)4(PMe3)2}-closo-2,1-RuCB10H8] 6 is obtained using an excess of PMe3. In contrast, the chelating diphosphines 1,1'-(PPh2)2-Fe(eta-C5H4)2 and 1,2-(PPh2)2-closo-1,2-C2B10H10 react with 1a to yield oxidative-insertion species [1-SMe2-2,2-(CO)2-11-(mu-H)-2,7,11-{Ru2(mu-H)(micro-[1',1'-(PPh2)2-Fe(eta-C5H4)2])(CO)4}-closo-2,1-RuCB10H8] 7 and [1-SMe2-2,2-(CO)2-11-(mu-H)-2,7,11-{Ru2(mu-H)(CO)4(1',2'-(PPh2)2-closo-1',2'-C2B10H10)}-closo-2,1-RuCB10H8] 8, respectively. In toluene at reflux temperatures, 1a with Bu(t)SSBu(t) gives [1-SMe2-2,2-(CO)2-7-(mu-SBu(t))-11-(mu-H)-2,7,11-{Ru2(mu-H)(mu-SBu(t))(CO)4}-closo-2,1-RuCB10H8] 9, and with Bu(t)C [triple bond] CH gives [1-SMe2-2,2-(CO)2-7-{mu:eta2-(E)-CH=C(H)Bu(t)}-11-{mu:eta2-(E)-CH=C(H)Bu(t)}-2,7,11-{Ru2(CO)5}-closo-2,1-RuCB10H8] 10. In the latter, two alkyne groups have inserted into cage B-H groups, with one of the resulting B-vinyl moieties involved in a C-H...Ru agostic bond. Oxidation of 1a with I2 or HgCl2 affords the mononuclear ruthenium complex [1-SMe2-2,2,2-(CO)3-closo-2,1-RuCB10H10] 11.     

CRYSTAL STRUCTURES OF [Bu4N]2[M2Ag3（ μ3—S）2（μ—S）4S2Et2dtc]（M=W,Mo）

<正> The title compounds were prepared from the reation of (NH4)2MS4 (M=W,Mo),AgNO3,NadtcEt2 and Et4NBr in CH3CN-H2O solution. The isomorphous compounds [Bu4N]2[W2Ag3S8Et2du] ( I ) and [Bu4N]2[Mo2Ag3S8Et2dtc] (Ⅱ) crystallize in triclinic space qroup Pi with the following crystal parameters:α=13. 043(4),b = 21. 640(6),c=10. 757(6)A ,α=95. 09(5),β = 91. 90(4),γ = 98. 57(3)°,Z = 2,V = 2987A3,Dc=1. 76g/cm3 for I 5;a= 12. 989(2) ,b=21. 574 (9) ,c= 10. 7/1(1) A .α= 95. 06(7), β=91. 61(4), γ=98. 52(2)°, Z = 2,V = 2961 A3.Dc= 1. 58g/cm3 for Ⅱ . The final R and Rw values are 0. 061 and 0. 072 for Ⅰ ,and 0. 062 and 0. 076 for Ⅱ The M2Ag3 (M = W, Mo) unit in anion M2Ag3S8Et2dtc forms a five-membered ring.     

[Co_3(1,2-S2C6H4)_3(PPh_3)_3]+, A basic triangle unit of some polynuclear molecules

[Co3(1,2-S2C6H4)3(PPh3)3][CoBr3(DMF)].sol (1, sol=CHCl3,O(C2H5)2,H2O) was obtained from the reaction of CoBr(PPh3)3 with Na2(S2C6H4) in chloroform. The Co3 core in the cation of 1 exhibits a metal-metal bonded isosceles triangle, in which the two longer Co-Co bonds are both bridged by S2C6H4 ligands on two sides of the triangle plane respectively, while the bottom short Co-Co bond is bridged by the third bidentate S2C6H4 ligand. A series of polynu-clear cobalt cluster compounds with phosphine, thiolate and/or sulphur ligands were prepared by low oxidation state Co+ with thiolates in organic solvents. These tri-, tetra-, hexa-, heptanuclear cluster compounds 1-8 with various types of crystal structures can be viewed as the condensed polynuclear cobalt complexes that the cobalt atom frameworks with sulphur bridged were built through the small triangular units of [Co3S3nL3] (n=1,2) with or without [CoL] (L=PR3, Br, Cl, 5-C5H5) fragments.     

Syntheses, structural determinations of [Ru(ROCS2)2(PPh3)2](+/0) pairs, and kinetic analyses of thermal reactions involving transient trans-[Ru(iPrOCS2)2(PPh3)2] species (ROCS2(-) = ethyl- or isopropyldithiocarbonate and PPh3 = triphenylphosphine)

Controlled-potential electrochemical oxidation of cis-[Ru(ROCS2)2(PPh3)2] (R = Et, iPr) yielded corresponding Ru(III) complexes, and the crystal structures of cis-[Ru(ROCS2)2(PPh3)2] and trans-[Ru(ROCS2)2(PPh3)2](PF6) were determined. Both pairs of complexes exhibited almost identical coordination structures. The Ru-P distances in trans-[Ru(III)(ROCS2)2(PPh3)2](PF6) [2.436(3)-2.443(3) A] were significantly longer than those in cis-[Ru(II)(ROCS2)2(PPh3)2] [2.306(1)-2.315(2) A]: the smaller ionic radius of Ru(III) than that of Ru(II) stabilizes the trans conformation for the Ru(III) complex due to the steric requirement of bulky phosphine ligands while mutual trans influence by the phosphine ligands induces significant elongation of the Ru(III)-P bonds. Cyclic voltammograms of the cis-[Ru(ROCS2)2(PPh3)2] and trans-[Ru(ROCS2)2(PPh3)2]+ complexes in dichloromethane solution exhibited typical dual redox signals corresponding to the cis-[Ru(ROCS2)2(PPh3)2](+/0) (ca. +0.15 and +0.10 V vs ferrocenium/ferrocene couple for R = Et and iPr, respectively) and to trans-[Ru(ROCS2)2(PPh3)2](+/0) (-0.05 and -0.15 V vs ferrocenium/ferrocene for R = Et and iPr, respectively) couples. Analyses on the basis of the Nicholson and Shain's method revealed that the thermal disappearance rate of transient trans-[Ru(ROCS2)2(PPh3)2] was dependent on the concentration of PPh3 in the bulk: the rate constant for the intramolecular isomerization reaction of trans-[Ru(iPrOCS2)2(PPh3)2] was determined as 0.338 +/- 0.004 s(-1) at 298.3 K (deltaH* = 41.8 +/- 1.5 kJ mol(-1) and deltaS* = -114 +/- 7 J mol(-1) K(-1)), while the dissociation rate constant of coordinated PPh3 from the trans-[Ru(iPrOCS2)2(PPh3)2] species was estimated as 0.113 +/- 0.008 s(-1) at 298.3 K (deltaH* = 97.6 +/- 0.8 kJ mol(-1) and deltaS* = 64 +/- 3 J mol(-1) K(-1)), by monitoring the EC reaction (electrode reaction followed by chemical processes) at different concentrations of PPh3 in the bulk. It was found that the trans to cis isomerization reaction takes place via the partial dissociation of iPrOCS2(-) from Ru(II), contrary to the previous claim that it takes place by the twist mechanism.     

Ruthenium(II) ammine and hydrazine complexes with [N(Ph2PQ)2]- (Q = S, Se) ligands

Reactions of coordinatively unsaturated Ru[N(Ph2PQ)2]2(PPh3) (Q = S (1), Se (2)) with pyridine (py), SO2, and NH3 afford the corresponding 18e adducts Ru[N(Ph2PQ)2]2(PPh3)(L) (Q = S, L = NH3 (5); Q = Se, L = py (3), SO2 (4), NH3 (6)). The molecular structures of complexes 2 and 6 are determined. The geometry around Ru in 2 is pseudo square pyramidal with PPh3 occupying the apical position, while that in 6 is pseudooctahedral with PPh3 and NH3 mutually cis. The Ru-P distances in 2 and 6 are 2.2025(11) and 2.2778(11) A, respectively. The Ru-N bond length in 6 is 2.185(3) A. Treatment of 1 or 2 with substituted hydrazines L or NH2OH yields the respective adducts Ru[N(Ph2PQ)2]2(PPh3)(L) (Q = S, L = NH2NH2 (12), t-BuNHNH2 (14), l-aminopiperidine (C5H10NNH2) (15); Q = Se, L = PhCONHNH2 (7), PhNHNH2 (8), NH2OH (9), t-BuNHNH2 (10), C5H10NNH2 (11), NH2NH2 (13)), which are isolated as mixtures of their trans and cis isomers. The structures of cis-14 and cis-15 are characterized by X-ray crystallography. In both molecular structures, the ruthenium adopts a pseudooctahedral arrangement with PPh3 and hydrazine mutually cis. The Ru-N bond lengths in cis-14.CH2Cl2 and cis-15 are 2.152(3) and 2.101(3) A, respectively. The Ru-N-N bond angles in cis-14.CH2Cl2 and cis-15 are 120.5(4) and 129.0(2) degrees, respectively. Treatment of 1 with hydrazine monohydrate leads to the isolation of yellow 5 and red trans-Ru[N(Ph2PS)2]2(NH3)(H2O) (16), which are characterized by mass spectrometry, 1H NMR spectroscopy, and elemental analyses. The geometry around ruthenium in 16 is pseudooctahedral with the NH3 and H2O ligands mutually trans. The Ru-O and Ru-N bond distances are 2.118(4) and 2.142(6) A, respectively. Oxidation reactions of the above ruthenium hydrazine complexes are also studied.