Synthesis and Characterization of syn-[(η~5-C_5Me_5)_2W_2(S)_2(μ-S)_2].0.5anti-[(η~5-C_5Me_5)_2W_2(S)_2(μ-S)_2]

1 INTRODUCTION The complexes of syn- or anti-[(5-C5Me5)2- W2(S)2(-S)2] could be prepared in several ways[1~5]. For example, a mixture consisting of [Et3NH][(5-C5Me5)WS3] and anti-[(5-C5Me5)2- W2(S)2(-S)2] was generated from the reactions of [(5-C5Me5)WCl4] with H2S in the presence of NEt3[2]. The reactions of [(5-C5Me5)W(NO)I2] with H2S led a mixture of [(5-C5Me5)W(S)(S2)I] and anti-[(5-C5Me5)2W2(S)2(-S)2][3]. [(5-C5Me5)W- (StBu)3] was degraded in THF at room temperat…     

Synthesis and Structural Characterization of [Cu(DMF)_6][(η~5-C_5Me_5)WS_3(CuBr)_3]_2·Et_2O

1 INTRODUCTION In the last decade, we have been interested in the synthesis of [PPh4][(h5-C5Me5)MS3] (M = Mo, W)[1, 2] , Whose organometallic trisulfido anions show high reactivity towards various transition metals[3~6] . We once reported that the reaction of [PPh4][(h5-C5Me5)WS3] with CuBr in CH3CN afforded a double incomplete-cubane cluster [PPh4]2[(h5-C5Me5)WS3(CuBr)3]2[3], while the analogous reaction of [PPh4][(h5-C5Me5)WS3] with CuBr in CHCl3 gave rise to a 揻our-…     

Synthesis and Crystal Structure of an Incomplete Cubane-like Heterobimetallic Cluster [(η~5-C_5Me_5)_2Mo_2(μ_3-S)(μ-S)_3(CuCl)]

The reaction of [(η5-C5Me5)2Mo2(μ3-S)4(CuCl)2] 1 with Na2S in MeCN produced a trinuclear cluster [(η5-C5Me5)2Mo2(μ3-S)(μ-S)3(CuCl)] 2. 2 crystallizes in the monoclinic system, space group P21/c with a = 15.563(3), b = 8.9547(18), c = 17.846(4) , β = 101.29(3)o, V = 2438.9(9) 3, Z = 4, Dc = 1.878 g/cm3, T = 193(2) K, C20H30ClCuMo2S4, Mr = 689.60, F(000) = 1376, μ(MoKα) = 2.335 mm–1, S = 1.050, R = 0.0305 and wR = 0.0688 for 4033 observed reflections with I > 2σ(I). In the structure of 2, one [(η5-C5Me5)2Mo2(μ-S)2S2] moiety and one CuCl unit are assembled into an incomplete cubane-like [Mo2S4Cu] core framework, in which the Cu center adopts a distorted tetrahedral geometry coordinated by one μ3-S atom, two μ-S atoms and one terminal chloride. The two Mo…Cu contacts are 2.7519(7) and 2.7689(8) , respectively.     

An inverted triplesalen ligand by a convergent synthesis and its influence on trinuclear FeIII 3 complexes

The inverted triplesalen ligand H 6 feld Me has been synthesized from 2,4,6-triformyl-phloroglucinol and a ketimine salen half-unit in a convergent synthesis. NMR, IR, and UV-vis spectroscopy reveal that this ligand is not in the O-protonated tautomer but in the N-protonated tautomer with substantial heteroradialene contribution. This ligand and the conventional triplesalen ligand H 6 talen t-Bu 2 have been used to synthesize the trinuclear Fe III complexes [(feld Me )(FeCl) 3 ] and [(talen t-Bu 2 )(FeCl) 3 ], respectively. The molecular structures of these complexes were obtained by single-crystal X-ray diffraction. Two trinuclear Fe III complexes of [(feld Me )(FeCl) 3 ] dimerize via two Fe-phenolate bonds, whereas due to steric hindrance no dimerization is observed for [(talen t-Bu 2 )(FeCl) 3 ]. The structural data also reveal some heteroradialene contribution in the trinuclear complexes. Whereas UV-vis and M bauer spectroscopy are not suitable to distinguish between the two complexes, FT-IR spectra show characteristic features due to the different substitution patterns of the conventional and the inverted triplesalen ligands. Another handle is provided by electrochemistry. Whereas both complexes exhibit an irreversible oxidation wave (0.94 V vs. Fc + /Fc for [(feld Me )(FeCl) 3 ] and 0.84 V vs. Fc + /Fc for [(talen t-Bu 2 )(FeCl) 3 ]), which is assigned to the oxidation of the central backbone, higher potential oxidations are reversible for [(talen t-Bu 2 )(FeCl) 3 ]) but irreversible for [(feld Me )(FeCl) 3 ]. This is attributed to the reversible oxidation of the terminal phenolates in the di-tert-butyl substituted [(talen t-Bu 2 )(FeCl) 3 ] in contrast to the mono-methyl-substituted phenolates in [(feld Me )(FeCl) 3 ]. The magnetic properties of [(talen t-Bu 2 )(FeCl) 3 ] reveal a very small ferromagnetic coupling with significant zero-field splitting of the FeⅢ S = 5/2 ions. In contrast, the dimerization of two trinuclear complexes in [(feld Me )(FeCl) 3 ] results in antiferromagnetic interactions between the two phenolate-bridged Fe III ions, which mask the intra-trinuclear interactions transmitted by the central phloroglucinol backbone.     

Synthesis and Structural Characterization of a Salt {[Co(Phen)_3][Mo_2S_2(μ-S)_2(edt)_2]}_2·(DMSO)_2·(Et_2O)(Phen = 1,10-Phenanthroline,edt=Ethane-1,2-dithiolate)

1 INTRODUCTION Dinuclear sulfido-bridged complexes with M2S2(μ-S)2 unit serving as building blocks for the construction of mixed-metal clusters are well docu- mented due to their rich structure diversities[1～3] as well as their potential applications in catalytic sys- tems and eletro/photonic materials[4, 5]. For example, reaction of [CpEt2Mo2S2(μ-S)2] with 2 equiv. of Co- (CO)3(NO) gave rise to a cubane-like cluster com- pound [CpEt2Mo2S2(μ-S)2Co2(CO)2][6]. In the case of[Mo…     

Cleavage of the Fe—Fe Bond of （Me2SiSiMe2） [η^5－C5H4Fe（CO）2]2 with Na／Hg and Molecular Structure of the Ring－Opened Complex

The reaction of the rifle cyclic complex (1) with sodium amalgam in THF resulted in the expected cleavage of the Fe-Fe bond to afford his-sodium salt ( Me2SiSiMe2 ) [η^5-C5H4Fe(CO)2]2 (4). The latter was not isolated and was used directly to react with MeI, PhCH2Cl, CH3C(O)Cl, PhC(O)Cl,Cy3SnCl (Cy= cyclohexyl) or Ph3SnCl to afford corresponding ring-opened derivatives (Me2SiSiMe2) [η^5-C5H4Fe(CO)2]2 [5, R=Me; 6, R=PhCH2; 7, R=CH3C(O); 8, R=PhC(O); 9, R = Cy3Sn or 10, R = Ph3Sn ]. The crystal and molecular structures of 10 were determined by X-ray diffraction analysis. The molecule took the desired ant/ conformation around the Si-Si bond. The length of the Si--Si bond is 0.2343(3)nm, which is essentially identical to that in the cyclic structure of 1[0.2346(4) tun]. This result unambiguously demonstrates that the Si--Si bond in the cyclic structure of 1 is not subject to obvious strain.     

Synthesis and Crystal Structure of an Incomplete Cubane-like Heterobimetallic Cluster [(η5-C5Me5)2Mo2(μ3-S)(μ-S)3(CuCl)]

The reaction of [(η5-C5Me5)2Mo2(μ3-S)4(CuCl)2] 1 with Na2S in MeCN produced a trinuclear cluster [(η5-C5Me5)2Mo2(μ3-S)( μ3-S)3(CuCl)] 2. 2 crystallizes in the monoclinic system, space group P21/c with a=15.563(3), b=8.9547(18), c=17.846(4) (A), β=101.29(3)°, V=2438.9(9) (A)3, Z=4, Dc=1.878 g/cm3, T=193(2) K, C20H30ClCuMo2S4, Mr=689.60, F(000)=1376, μ(MoKα)=2.335 mm–1, S=1.050, R=0.0305 and wR=0.0688 for 4033 observed reflections with Ⅰ ＞ 2σ(Ⅰ). In the structure of 2, one [(η5-C5Me5)2Mo2(μ-S)2S2] moiety and one CuCl unit are assembled into an incomplete cubane-like [Mo2S4Cu] core framework, in which the Cu center adopts a distorted tetrahedral geometry coordinated by oneμ3-S atom, twoμ-S atoms and one terminal chloride. The two Mo…Cu contacts are 2.7519(7) and 2.7689(8) (A), respectively.     

Synthesis and characterization of a new Mo-Fe-S cluster compound containing MoO_3S_3 unit and mixed-valent Mo atoms [Et_4N]_2[Mo_2Fe(CO)_4(S,O-C_6H_4-1,2)_3Cl_2]

Reaction of [Mo3(CO)7(S,O-C6H4-1,2)3]2- with FeCl2 in MeCN at 60℃ affords a new Mo-Fe-S cluster complex containing MoO3S3 unit and mixed-valeut Mo atoms, [Et4N]2[Mo2Fe-(CO)4(O,S-C6H4-1,2)aCl2] (1). 1 is characterized by elemental analysis, IR, Mossbauer spectra, X-ray photoelectron spectra and mass spectra. And the structure of 1 is suggested as the structure which contains a [Mo(S,O-C6H4-1,2)3] unit of which the two of three sulfur atoms link to a Mo(CO)4-moiety and the three oxygen atoms are coordinated to a FeCl2 ligand.     

A trinuclear Mo-Fe-Mo cluster compound [Et_4N] { [Me_2dtcMo-O(μ-S)_2]_2Fe} containing dialkyldithiocarbamate ligand

A trinuclear linear Mo-Fe-Mo dialkyldithiocarbamate complex [Et4N] { [ Me2dtcMoO (μ-S)2 ]2Fe} has been obtained and structurally characterized, which contains two Me2dtcMoO-(μ-S)2 units coordinated to a central tetrahedral Fe atom. A comparison of the structural parameters indicates the metal oxidation states of 2Mo(v) Fe(III). The 1H NMR shows chemical shifts of Me2dtc ligands at 5 10.14 and 8 9.40 with the intensity ratio of 1:1. The cyclic voltammogram displays a reversible couple at - 1.41 V/ - 1.36 V responsible for 1-/2-anions of the complex and an irreversible oxidation at 0.5 V, which seems to show the apparent lack of stability for its neutral species (Me2dtcMoOS2)2Fe.     

Synthesis, Characterization and Crystal Structure of [Co2Mo2(μ4-C2HPh)(μ-CO)4(CO)4(η5-C5H4C(O)Me)2]

The reaction of μ-alkyne-bridged dimolybdenum compound [Mo2(μ-C2HPh)(CO)4(η5-C5H4C(O)Me)2] 1 with Co2(CO)8 in refluxing toluene gave a new butterfly compound [Co2Mo2(μ4-C2HPh)(μ-CO)4(CO)4(η5-C5H4C(O)Me)2] 2 which was fully characterized by elemental analysis, IR, 1H NMR and X-ray single crystal diffraction techniques. 2 crystallized in monoclinic system, C30H20Co2Mo2O10, Mr=850.23, space group P21/a(#14), a=14.165(5), b=12.498(2), c=16.204(2)(A), β = 96.50(2)°, V = 2850(1)(A)3, Z = 4, Dc = 1.981 g cm-3, F(000)=1672, μ(MoKα)=20.41 cm-1, final R=0.030, Rw=0.039 for 4831 observable reflections with I>2σ(I). The structure contains a Co2Mo2 butterfly core, and each Mo-Co bond is spanned by an asymmetric semi-bridging carbonyl ligand.     

环戊二烯基钌配合物催化的高选择性苯乙炔二聚反应

Transition metal vinylidene complexes (M=C=CHR) have attracted a great deal of attention in recent years as a new type of organometallic intermediates that may have unusual reactivity[1]. Their reactivity has been explored and their application to organic synthesis is developed[2]. Recent reports on the ruthenium-vinylidene complexes[3]suggest that the reaction of ruthenium-vinylidene complexes with a base generates the coordinatively unsaturated ruthenium acetylide species, which are involved in a number of catalytic and stoichiometric reactions of alkynes. For example,the coordinatively unsaturated ruthenium acetylide species C5Me5Ru(PPh3)-C≡CPh,formed from the reaction of the vinylidene complex C5Me5Ru(PPh3) (Cl)=C=CHPh with a base was reactive toward a variety of small molecules and active in catalytic dimerization of terminal alkynes[4]. The dimerization of terminal alkyne is an effective method of forming enynes, but its synthetic application in organic synthesis has been limited dueto low selectivity for dimeric products[5]. In this communication, we report that three ruthenium complexes were used as catalysts for the highly selective dimerization of phenylacetylene.     

STRUCTURE OF {Mo4S4（μ—OAc）2[S2P（OC2H5）2]4H}

<正> {Mo4S4(μ-OAc)2(dtp)4H}3,(dtp=S2P(OEt)2),Mr=1371.60,Or-thorhombic, space group Pcab, a = 18. 90 (2) ,b = 21. 678 (4 ) , c = 24. 491 (4 ) A , V = 10031(7)A3,Z=8,Dc=1.818g/cm-3,F(000)=5464,λ(MoKa)=0.71073A,finalR= 0. 069 for 3738 independent reflections. This is a successful example of the formation of [Mo4S4]5+ from[3+1] reaction mode. The results of the structure determination indicate that the configuration of the title compound exhibits a tetranuclear cubane-type core [Mo4S4]5+ with six Mo - Mo distances in the range 2. 685~2. 969A and is very similar to that of the previously characterized compound {Mo4S4(μ-OAc)2(dtp)4}2, [Mo4S4]6+, which was obtained directly by the reaction of MoCl3·3H2O with dtp. Some notable differences, however, can be found when six Mo - Mo bond distances and bonding parameters of the four terminal bidentate ligands (dtp) are compared between these two compounds , That can be attributed to the difference in the oxidation state of these two clusters .     

Synthesis,structure and electrochemistry of dithiocarbamato phenthiolate oxo-molybdenum(Ⅳ)complexes[MoO(SΦ)_2(S_2CNEt_2)]

The reaction of Mo(0) complex [Mo(CO)_4(S_2CNEt_2)]~- with phenthiolate [Et_4N]SΦin acetonitrilo in the presence of small amount of air affords a new oxo-molybdenum com-plex [MoO(SΦ)_2(S_2CNEt_2)]~-,which crystallizes in two forms of crystals,[Et_4N][MoO(SΦ)_2(S_2CNEt_2)](1a) and [Et_4N][MoO(SΦ)_2(S_2CNEt_2)]·(CH_3)_2CHOH (1b).The structures of1a and 1b were determined from three-dimensional X-ray data.1a crystallizes in the mo-noclinie,space group C_c with a=12.321(4),b=15.245(4),c=16.087(9);β=98.44(4)°.V=2989~3,Z=4,D_c=1.35 g/cm~3 and R=0.031 for 2434 reflections [I>3(I)].1b crystallizes inthe monoclinic,space group P2_1/n with a=9.861(1),b=20.357(3),c=17.122(5)A;β=92.27(2)°,V=3434.3~3,Z=4;D_c=1.29 g/cm~3 and R=0.051 for 2852 independeut reflections [I>3σ(I)],The structures of 1a and 1b reveal that the anion [MoO(SΦ)_2(S_2CNEt_2)]~- contains asingle oxo ligand coordinating to a molybdenum(Ⅳ) and the geometry around Me(Ⅳ) atomis a distorted square pyramid.Interestingly,the solvate molecule isopropanol of 1b is linkedto oxo group by a hydrogen-bond of 1.928A,leading to the increase of Mo=O bond distance(1.718).Mo—S distances are 2.44 and 2,39.The electrochemical behavior of 1 wasdiscussed also.     

A STUDY OF THE REDOX CHARACTERISTICS OF THE TERNARY CLATHRATE COMPOUND {MolS2CN(C2H5)2]4} {FeCl4}-{C6H5CH2SSCH2C6H5}

The redox characteristics of the ternary clathrate compound{C6H5CH2SSCH2C6H5}was studied by electrochemical measurement and quantum-chemical calculations.The cyclic voltammogram of this ternary clathrate compound in 0.1M KC1O4-DMF with a platinum electride had 2.pairs of redox peak.Both the electrochemical parameters derived from the voltammogram and the results of EHMO calculations indicate that the pair of redox peak at relatively positive potentials corresponds to the redox reaction of "Fe(Ⅲ)/Fe(Ⅱ) which is irreversible in nature,while the pair of redox peak at more negative potentials corresponds to the redox reaction of Mo(Ⅴ)/ Mo(Ⅱ) which is semi-reversible.The calculations from experiment measurements are fairly agreement with the theoretical calculations.     

METHANE DIRECT CONVERSION TO ETHENE OVER Mo/SAPO-34 CATALYSTS

We have studied the methane activation in non-oxidative condition[1,2],and have shown the possibility of direct methane conversion to aromaticsover Mo/HZSM-5.Ethene is regarded as the initial product of the reaction.We thus pay attention to the selective production of ethene and low hydro-carbons from methane directly.The molecular sieve HSAPO-34(SP) waschosen as catalyst support,which has the framework topology of naturalchabazite,and has been shown to convert methanol selectively to Cl~ C3 hy-drocarbons[3].The framework Of SP contains a three-dimensional channel     

Kinetic Studies on the Reaction of Sodium Hexa-cyanoferrate(II) Complex with Peroxydisulfate Anion

Introduction In the previous studies on the oxidation reaction,peroxydisulfate was widely used as an oxidizingagent.1-5 One of the advantages of this oxidant lies in itsstability in a wide range of pH values. The reaction be-tween Fe(CN)5L3- (L=N-aromatic heterocyclic li-gands) and S2O8 2- has been proved to proceed throughan outer-sphere electron transfer mechanism.5 For a re-action [(Eq. (1)] to be under an outer-sphere mechanismthe steps involved are the formation of a reactant …     

[Na_4(H_2O)_7][Fe(OH)_6Mo_6O_(18)]: a new [12] metallacrown-6 structure with an octahedrally coordinated iron at the center

The reaction of an aqueous solution of sodium molybdate with iron powder at low pH (-0.184) gives rise to the formation of a six-member Mo ring-shape cluster with an Fe (II) encapsulated at the center, [Na4(H2O)7][Fe(OH)6Mo6O18](1), which is further linked to a remarkable three-dimensional network via sodium ions.     

在反应温度下以1％O2对Mo／MCM－22催化剂的原位再生

In recent years, the catalytic dehydroaromatization of methane to yield aromatics has been a challenging and intriguing topic in heterogeneous catalysis. Until now, the two effective methane dehydroaromatization catalysts are Mo/HZSM-5[1] and Mo/MCM-22[2]. However, this reaction suffers from rapid catalyst deactivation due to coking[3].     

基于两个取代四甲基环戊二烯基配体的金属羰基化合物的合成及晶体结构(英文)

配体[C5Me4HR][R=4-Br Ph(1),(Me C5H3N)CH2(2)]分别与Mo(CO)6,Ru3(CO)12和Fe(CO)5在二甲苯中加热回流,得到了6个双核配合物trans-[η5-C5Me4R]2Mo2(CO)6(3,4),trans-[(η5-C5Me4R)Ru(CO)(μ-CO)]2(5,6)和trans-[η5-(C5Me4R)Fe(CO)(μ-CO)]2(7,8)。通过元素分析、红外光谱、核磁共振氢谱对配合物的结构进行了表征,并用X-射线单晶衍射法测定了配合物3,5,6和8的结构。     

异核四面体簇合物(η5-C5H5)(η5-RC5H4)MNiFeS(Co)5(M=MO,W)的合成及等瓣置换反应研究——(η5-C5H5)(η5-MeO2CC5H4)MONiFe2S(CO)10的单晶分子结构

通过(η5-RC5H4)MCoFeS(CO)8(la:M=Mo,R=H;1b:M=Mo,R=MeO2C;lc:M=Mo,R=Me;1d:M=Mo,R=EtO2C;1e:M=W R=H)与Cp2Ni的等瓣置换反应合成了簇合物(η5-C5H5)(η5-RC5H4)MNiFeS(CO)5(2a:M=Mo,R=H;2b:M=Mo,R=MeO2C;2c:M=Mo,R=Me;2d:M=Mo,R=EtO2C;2e:M=W,R=H).进一步通过2a,b与Co2(CO)8以及2c,d与Fe2(CO)9的等瓣置换反应,分别合成了(η5-RC5H4)MoCoFeS(CO)8(la:R=H;1b:R=MeO2C)和(η5-C5H5)(η5-RC5H4)MoNiFe2S(CO)10(3a:R=Me;3b:R=EtO2C).新簇合物2c-e和3a,b的结构均经元素分析、IR及1H NMR谱学表征.此外,还对我们以前合成的一个3a,b类似物(η5-C5H5)(η5-MeO2CC5H4)MoNiFe2S(CO)10(3c)成功地进行了单晶结构分析.3c属单斜晶系,Cc(#9)空间群,晶胞参数a=1.0051(3)nm,b=1.5311(5)nm,c=1.7437 nm,β=105.5(3)°,Z=4.最终一致性因子R=0.025,Rw=0,033.