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1.
通过配基置换反应合成出两个新的三核钼簇合物[Mo_3S_4(DTC)_4(DMF)](EtOH(1)和[Mo_3S_4-(DTC)_4(Py)](Py)_2(H_2O)(2)。用X射线衍射法测定了这两个簇合物的晶体结构。簇合物1的空间群为PI,晶胞参数:a=10.624(5),b=11.373(2),c=19.216(5)A;α=87.92(2),β=79.89(3),r=69.44(3);Z=2。簇合物2的空间群为PI,晶胞参数:a=11.505(2),b=11.945(1),c=18.974(2)A;α=99.18(1),β=94.82(1),r=93.84(1)°;Z=2。结构分析结果表明,两个簇合物的簇胳均是{Mo_3S_4}~(4+)的三核钼原子簇。对簇合物中配基对Mo-Mo键的影响以及配基置换反应的规律性进行了讨论。  相似文献   

2.
通过(μ-i-C3H7S)(μ-PhCH2S)Fe2(CO)6和三苯膦在甲苯中回流反应6h, 制得了三苯膦双取代配合物(μ-i-C3H7S)(μ-PhCH2S)Fe2(CO)4(PPh3)2(1), 并用X射线衍射技术测得其单晶结构. 晶体属三斜晶系, 空间群为PI. 晶胞参数: a=10.268(4),b=20.289(1), c=22.799(5)埃; a=94.73(1)°, β=102.98(2)°, γ=89.93(1)°;V=4610.5埃^3, Z=4, Dc=1.36g/cm^3. 晶体结构用直接法(MULTAN 82)测定, 采用块矩阵最小二乘法进行最终结构精化, 最后偏离因子R=0.059, Rw=0.068. 单晶X射线分析表明, 配合物1的簇核是由两个铁原子和两个硫原子组成的蝴蝶式结构; 两个三苯膦配体处于铁-铁弯键的反位; 异丙基和苄基分别以6键与硫相连.  相似文献   

3.
报道具有松散配位的三核钼簇合物{Mo3(μ3-S)(μ-S)3[S2P(OEt)2]4.L(L'=H2O,C3H3ON,和SbCl3在HCl-EtOH中加合反应及其产物{Mo3(μ3-S)[(μ-S)3.SbCl3].[S2P(OEt)2]4(C2H5OH)}(C2H5OH)和{Mo3(μ3-S)[(μ-S)3.SbCl3][S2P(OEt)2]3[SXP(OEt)2].(C3H3ON)}(X=S,O)的晶体结构。结构测定结果表明,这两个加合物的分子由{Mo3(μ3-S)(μ-S)3[S2P(OEt)2]4.L(L=C2H5OH,C3H3ON)通过三个(μ-S)联结SbCl3而成,从而获得了{Mo3SbS4}的类立方烷簇胳构型,Sb一S之间存在较弱的配位键, 由此推断,若加合的金属原子的轨道和电子组态适宜,有可能通过这种[3+1]的成簇模式获得四核的同核或异核簇合物。  相似文献   

4.
具有松散配位的三核钼簇合物[Mo_3(μ_3—S)(μ—S)_3(μ—dtp)(dtp)_3·(H_2O)](A)(dtp=S_2P(OC_2H_5)_2)和过量的咪唑反应时,(H_2O)配体和双啮桥基配体(dtp)可以同时被置换而形成标题化合物(Ⅰ)。晶体结构属三斜晶系,空间群P1。结构组成包括簇阳离子[Mo_3(μ_3—S)(μ—S)_3(dtp)_3·(C_3H_4N_2)_3],(dtp)阴离子及丙酮溶剂。簇阳离子具有近似C_3对称性,三个Mo原子基本上形成等边三角形,其Mo—Mo键长分别为2.763(1),2.762(1),和2.756(1),此簇合物是配体取代反应系列研究的产物之一,是由已知原子簇反应获得新型簇合物的一个例证。  相似文献   

5.
应用X-射线单晶衍射方法, 测定2,2-联吡啶(bpy)和簇合物MO_3S_4(μ-dtp)(dtp)_3(H_2O)(Ⅰ)反应产物褰峁埂a果? 产物为Mo_3S_4(μ-dtp)(η~2-dtp)_2(η~1-dtp)(bpy)(Ⅱ), 即联吡啶置换了簇合物(Ⅰ)中的端基(H_2O)和端基(dtp)中的一啮。簇合物(Ⅱ)晶体属三斜晶系。晶胞参数为:a=1.3638(3); b=1.3983(3); c=1.4699(2) nm, a=95.57(2)°, β=91.87(2)°, γ=117.40(2)°; V=2.4676 nm; Z=2; D_C=1.767 g·cm~(-3)。晶体的空间群为P1。最终偏离因子R=0.069, R_w=0.076。本文结合过去对簇合物(Ⅰ)进行的四种不同类型的置换反应的研究, 进行了必要的讨论。并指出本文中的反应是松散本位促进的配基置换反应。  相似文献   

6.
本文以[NH4]2MOnS4-n(M=Mo, w, n=0-2)为原料, 在酸性和中性条件下, 合成出九个新的三核不对称钼硫和钨硫原子簇状化合物L2[M3O2S8][L=(n-Bu)4N, Ph4P,PyC16H33, (CH3)3NC16H33, Et4N], 用元素分析, 红外光谱, 紫外光谱对簇合物进行了表征, 并测定了其中[(n-Bu)4N]2[Mo3O2S8]和[n-Bu)4N]2[W3O2S8]两个簇合物的晶体结构。本文又一次验证了钼(钨)硫成簇反应是分子内部电子转反应, 并提出了反应历程。  相似文献   

7.
标题簇合物系通过液相氧化低价钼(MoCl3)制得,晶体属正交晶系,空间群为D2h[16]-Pmnb,晶胞参数:α=11.403(1),b=12.345(2),c=14.292(2)A,V=2011.8(8)A[3].Z=4,Dc=2.396g.cm[-3].使用四圆衍射仪收集衍射数据,晶体结构用重原子法解出,经全矩阵最小二乘修正,R=0.050,Rw=0.056.簇阴离子结构属M1型三核钼簇构型,Mo-Mo键2.577A;Mo-O-μ3键1.982A.还讨论了桥原子、键级以及配体对Mo-Mo键的影响。  相似文献   

8.
新型六核双网兜状簇合物[MoS4Cu5Br3(Py)7]的合成与晶体结构   总被引:1,自引:0,他引:1  
以(NH4)2[Mo2S12]?H2O与过量CuBr在吡啶溶液中反应,得到了一个新型六核Mo/Cu/S簇合物[MoS4Cu5Br3(Py)7]。X-射线单晶结构分析表明它属于三斜晶系,空间群为P?C35H35Br3Cu5MoN7S4,Mr=1335.37,a=11.6274(4),b=12.0127(4),c=18.8872(5),a=82.46(2),b=73.25(2),g=62.800(13),V=2246.8(2)?,Z=2,F(000)=1300.0,Dc=1.974g/cm3,?=5.482mm-1,5718个独立可观察点(I>3(I)),最终偏离因子R和Rw分别为0.042和0.048。标题化合物是由2个相似的网兜状MoS3Cu3簇核通过共用MoSCuS平面形成的双网兜状结构,Mo…Cu距离在2.6830(11)~2.741(2)胖洹?  相似文献   

9.
以(NH4)3VS4为起始原料, 用低温固相法合成了标题簇合物, 并测定其晶体结构。晶体属空间群P1, 单胞参数a=1.3139(10), b=2.5113(170, c=1.1800(8)nm,α=93.04(6), β=114.86(5), γ=96.71(7)°, Z=2, μ=21.4cm^-^1, R=0.084。在簇合物中, VS4^3^-保持较严格的四面体构型, 并螯合四个Cu(I)离子连同桥Br^-离子形成具有额外面的立方烷簇骼[VS4Cu4Br]。  相似文献   

10.
余秀芬  郑发鲲 《化学学报》1995,53(8):775-780
以(NH4)3VS4为起始原料, 用低温固相法合成了标题簇合物, 并测定其晶体结构。晶体属空间群P1, 单胞参数a=1.3139(10), b=2.5113(170, c=1.1800(8)nm,α=93.04(6), β=114.86(5), γ=96.71(7)°, Z=2, μ=21.4cm^-^1, R=0.084。在簇合物中, VS4^3^-保持较严格的四面体构型, 并螯合四个Cu(I)离子连同桥Br^-离子形成具有额外面的立方烷簇骼[VS4Cu4Br]。  相似文献   

11.
本文报道了具有局部松散配位的三核钼原子簇{Mo3(μ3-S)(μ-S)[S2P(OEt)2]4.P(C6H5)3}.(0.86CH2Cl2)的合成和晶体结构.在CAD-4四圆衍射仪上用Mo Kα射线收集到I≥2σ(I)的衍射点4840个.采用重原子法和差电子密度法解出结构,并用全矩阵最小二乘法修正,最终偏离因子为0.058.簇分子的Mo-Mo键为2.731(1),2.748(1),2.753(1)A,Mo原子和三苯基膦的P原子配位键长为Mo-P2.647(3)A,显著长于一般的Mo-P共价单键.三苯基膦基团在Mo的配位多面体中处于三重桥S原子的对位,表现出与其他此类簇合物的松散配位体配位位置不同.文中概括了此类簇合物的Mo-Mo键和Mo-L的成键情况.  相似文献   

12.
由贫硫化合物{Mo_3S_4[S_2P(OEt)_2]_4·H_2O}通过加硫获得了富硫化合物{Mo_3S_7[S_2P(OEt)_2]_3·I}(CH_8C_6H_5).化合物属三斜晶系,空间群PI,晶胞参数为a=10.350(1)A,b=13.931(4)A,c=16.369(3)A,α=103.69(2),β=86.62(1),γ=111.99(2)°,V=2183A~3;z=2,D_c=1.817g·cm~(-3).最终结构偏离因子R为0.042. 簇分子{Mo_3(μ_3-S)(μ-S_2)_3[S_2P(OEt)_2]3·I}属{Mo_3(μ3一Y)(μ-S_2)_3[S_2P(OEt)_2]_3·X}(Y=O,S;X=Cl,I)系列构型.{Mo_3}基本上是一个正三角形,Mo—Mo键长分别为2.721(1),2.724(1),2.725(1)A,Mo的配位多面体为七个硫原子组成的畸变五角双锥,有一个I原子联结着三个(S_2)~(2-)桥基的三个不与Mo共平面的S原子,I—S距离平均为3.169A,比相应的Van der Waals距离(~4.00A)明显地短,显示一定程度的成键作用,簇分子的这一构型是一种较为稳定的结构类型.  相似文献   

13.
具[MoFe2S4]类立方烷结构单元的双类立方烷化合物[Et4N]4[Mo2Fe7S8(SR)12](1a,R=Ph; 1b, R=tolyl-m)或单类立方烷化合物[MoFe3S4(dteR2)5](2a, R=Me; 2b, R=Et)与酰氯在乙腈中反应, 分别得到不含Fe桥的双类立方烷化合物(Et4N)3[Mo2Fe6S8(SR)3Cl6](3a, R=Ph; 3b, R=toly-m)与[MoFe3S4]骨架支解后的Fe(dteR2)2Cl(4a, R=Me; 4b, R=Et)。说明在相同反应条件下, [MoFe3S4]单元在1中比在2中稳定, 本文首次将1型与3型结构通过一步化学反应连系起来。3型化合物的产生得到X射线衍射测定及^1H NMR谱的证实。本文报道3b的单晶结构及3的^!H NMR数据, 3b属六方晶系, P63/m, a=1.6827(3), c=1.5951(16)nm; V=3.91158nm^3; Dc=1.491g/cm^3;Z=2; F(000)=1780; 偏离因子R=0.048, 化合物2与酰氯反应产生4, 由红外及紫外可见光谱证实。  相似文献   

14.
New organometallic clusters with the MFe2(mu3-S)2 core (M = Mo or Fe) have been synthesized from inorganic [MoFe3S4] or [Fe4S4] clusters under high pressure CO. The reaction of (Cl4-cat)2Mo2Fe6S8(PR3)6[R = Et, (n)Pr] with high pressure CO produced the crystalline [MoFe2S2]4+ clusters, (Cl4-cat)Mo(O)Fe2S2(CO)(n)(PR3)6-n[n= 4, Et =I, (n)Pr =II; n = 5, Et =III] after flash column chromatography. The similar [MoFe2S2]4+ cluster, (Cl4-cat)2MoFe2S2(CO)2(depe)(2)(IV), also has been achieved by the reactions of (Cl4-cat)MoFe3S3(CO)6(PEt3)2 with depe by reductive decoupling of the cluster. For the [Fe3(mu3-S)2]4+ cluster, [Fe4S4(PcHex3)4](BPh4) was reacted with high pressure CO to produce a new Fe3S2(CO)7(PcHex)(2)(V) compound. These reactions generalized the preparation of organometallic compounds from inorganic clusters. All the compounds have been characterized by single crystal X-ray crystallography. A possible reaction pathway for the synthesis of the MFe2(mu3-S) clusters (M = Mo or Fe) has also been suggested.  相似文献   

15.
A new cluster {Mo3S4[NH2CH2CH(O)CH2NH2]3}(DTP)·(H2O)2·(DMF) (DTP = diethyldithiophosphate) has been synthesized via ligand substitution reaction of Mo3S4(DTP)4(H2O) with an alkaline ligand 1,3-diamino-2-propanol(DAPROH) in a mixed organic solvent, and its crys- tal structure was determined with the following data: Mo3S6PC16H48O8N7, Mr = 977.76, triclinic, space group P, Z = 2, a = 10.319(2), b = 12.843(3), c = 15.335(3)(A), α = 65.26(3), β = 82.18(3), γ = 70.67(3)o, V = 1741.7(6) (A)3, Dc = 1.864 g/cm3, μ = 1.517 mm-1, F(000) = 988, the final R = 0.0794 and wR = 0.2111 for 6318 observed reflections (I>2σ(I)). The structure analysis indicates that all DTP ligands of Mo3S4(DTP)4(H2O) are replaced and each DAPRO molecule acts as a tri- dentate ligand chelating to each Mo atom of the Mo3S4 core. Different from the precursor, the clus- ter symmetry is elevated to C3. In addition, the UV-spectrum of the title compound was measured.  相似文献   

16.
研究了[{CO)4M}xM'S4]^2^-[x=1,2; M=Mo(0), W(0); M'=Mo(VI), W(VI)]系列簇合物共振Raman(RR)光谱及红外(IR)光谱。除了对^νc-o, ^νM(VI)-s(b)[S(b):桥基S], ^νM(VI)-s(t)[S(t): 端基S], ^νM(0)-c, ^δM(0)-c-o进行归属外, 着重讨论^νM(0)-s(b), ^νM(0)-M(VI)的归属。研究了IR谱中Δν[^νM(VI)-s(b)─^νM(0)-s(b)]与M(0)→M(VI)电荷迁移的关系。RR谱研究结果表明, 在[(CO)4^-MS2MoS2]^2^-, [(CO)4MoS2MoS2Mo(CO)4]^2^-中S(b)→M(0)电荷迁移与M(0)→Mo(VI)电荷迁移之间有较明显的相互偶合; 在[(CO)4MS2WS2]^2^-中S(b)→W(VI)与M(0)→W(VI)电荷迁移、S(t)→W(VI)与M(0)→W(VI)电荷迁移之间也分别存在明显的相互偶合, 说明了它们存在强的电子离域。本系列簇合物中二核簇的电子离域程度比三核簇强。  相似文献   

17.
Yu RM  Lu SF  Huang JQ  Huang XY  Wu QJ  Wu DX 《Inorganic chemistry》2000,39(23):5348-5353
Three heterometallic cubane-like clusters, [Mo3(mu 3-O)(mu 3-S)3(SnCl3)(dtp)3(py)3] (dtp = S2P(OC2H5)2-, py = C5H5N) (1), (PPN)[Mo3(mu 3-O)(mu 3-S)3(SnCl3)(dtp)3(mu-OAc)(py)] (OAc = CH3COO-, PPN = (C6H5)3PNP(C6H5)3+) (2), and (Et4N)[Mo3(mu 3-O)(mu 3-S)3(SnCl3)(dtp)2(mu-OAc)2(py)] (3) have been prepared by the reaction of [Mo3(mu 3-O)-(mu-S)3(dtp)4(H2O)] (4), [Mo3(mu 3-O)(mu-S)3(dtp)3(OAc) (py)] (5), and [Mo3(mu 3-O)(mu-S)3(dtp)2(OAc)2 (py)] (6) with SnCl2, respectively. They have been characterized by IR, UV-vis, 31P NMR, 95Mo NMR, and X-ray structure analysis. All of these heterometallic clusters have a [Mo3OS3Sn]6+ core but contain a different arrangement of peripheral ligands. As far as the neutral cluster 1 is concerned, there is no bridging OAc ligand, while only one bridging OAc ligand is observed for cluster 2 and two are for cluster 3. The Mo-Mo distances are about 0.03-0.04 A shorter than those of the starting trimolybdenum clusters. This indicates that the incorporation of SnCl3- fragment into (Mo3) clusters makes the Mo-Mo bonding enhanced. Crystal data for 1: triclinic, space group P-1, a = 10.7423(2) A, b = 14.0357(1) A, c = 16.9346(2) A, alpha = 84.054(1) degrees, beta = 87.095(1) degrees, gamma = 84.517(1) degrees, V = 2525.82(6) A3, Z = 2, R = 0.038 for 5584 reflections (I > 2.0 sigma(I)). Crystal data for 2: triclinic, space group P-1, a = 12.9529(1) A, b = 15.6324(2) A, c = 19.6355(1) A, alpha = 92.083(1) degrees, beta = 97.908(1) degrees, gamma = 110.337(1) degrees, V = 3677.41(6) A3, Z = 2, R = 0.034 for 8665 reflections (I > 2.0 sigma(I)). Crystal data for 3: monoclinic, space group P2(1)/n, a = 14.0852(5) A, b = 15.1324(5) A, c = 23.2691(7) A, beta = 97.371(1) degrees, V = 4918.7(3) A3, Z = 4, R = 0.049 for 4970 reflections (I > 2.0 sigma(I)).  相似文献   

18.
采用[2+1+1]的设计合成模式, 以二核化合物[Mo~2S~4(TDT)~2](Me~4N)~2(1,TDT=S~2C~6H~3CH~3^2^-)为起始物,与Ag(PPh~3)~3(NO~3)反应,首次合成[Mo~2Ag~2S~4](TDT)~2(PPh~3)~2·CH~2Cl~2(2)的类立方烷异四核簇合物.文中报道了该化合物的晶体结构,红外光谱,紫外可见光谱和电化学研究结果, 以此簇合物和过量的Cu(PPh~3)~2dtp[dtp=S~2P(OEt)~2]反应发现金属Ag可被Cu取代,形成其同系物[Mo~2Cu~2S~4](TDT)~2(PPh~3)~2.这是迄今研究较少的原子簇反应类型.化合物的结晶学参数如下:单斜晶系,空间群:P2~1/n,晶胞参数:a=1.7202(4)nm,b=1.7632(3)nm,c=1.9033(8)nm.β=99.24(3)°,V=5.698(3)nm^3,Z=4,D~c=1.69g/cm^3.对于6158个衍射,最终结构偏离因子R=0.040,R~W=0.048  相似文献   

19.
Wei ZH  Li HX  Zhang WH  Ren ZG  Zhang Y  Lang JP  Abrahams BF 《Inorganic chemistry》2008,47(22):10461-10468
Treatment of [Et 4N] 2[(edt) 2Mo 2S 2(mu-S) 2] ( 1) (edt = ethanedithiolate) with equimolar CuBr afforded an anionic hexanuclear cluster [Et 4N] 2[(edt) 2Mo 2(mu-S) 3(mu 3-S)Cu] 2.2CH 2Cl 2 ( 2.2CH 2Cl 2). On the other hand, reactions of 1 with 2 equiv of CuBr in the presence of 1,2-bis(diphenylphosphino)methane (dppm) and pyridine (Py) ligands gave rise to two neutral tetranuclear clusters [(edt) 2Mo 2O 2(mu-S) 2Cu 2(dppm) 2] ( 3) and [(edt) 2Mo 2O(mu 3-S)(mu-S) 2Cu 2(Py) 4] ( 4), respectively. The reaction of 1 with 2 equiv of CuBr followed by the addition of a mixture of dppm and Py (molar ratio = 1:2) yielded another neutral tetranuclear cluster [(edt) 2Mo 2(mu-S) 2(mu 3-S) 2Cu 2(dppm)(Py)].Py ( 5.Py). Compounds 2- 5 have been characterized by elemental analysis, UV-vis spectra, IR spectra, (1)H NMR, and X-ray analysis. The structure of the dianion of 2 can be viewed as having a [Mo 4S 8Cu 2] core in which two chemically equivalent [Mo 2(mu-S) 3(mu 3-S)(edt) 2Cu] (-) anions are linked by two extra Cu-S edt bonds. The molecular structure of 3 may be visualized as being built of one [(edt) 2Mo 2X 2(mu-S) 2] (2-) dianion and one [Cu 2(dppm) 2] (2+) dication that are connected by a pair of M-mu-S edt bonds. Compound 4 is formed by the affiliation of two Cu(I) atoms only at one end of the [(edt) 2Mo 2S 2(mu-S) 2] moiety, connecting with the S t atoms and the S edt atom. Cluster 5.Py can be viewed as being constructed from the addition of one Cu atom onto the incomplete cubanelike [Mo 2S 4Cu] framework through one terminal sulfur and one edt sulfur. Among the four clusters, 3 and 4 have internal mirror symmetry or pseudo mirror symmetry, respectively, while 2 and 5 are asymmetric clusters with racemic formation.  相似文献   

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