直接法合成异核羰基金属族合物及Pd3(SC6H4OH)3(PPh3)3(OH)2Cl的晶体结构分析

本文根据分子碎片结合原理, 用直接法由简单的单质元素, 金属盐类及配体, 通过控制反应温度、压力, 时间及配体用量在CO气氛下一步合成含羰基和不含羰基的簇合物: Pd3(SC6H4OH)3(PPh3)3(OH)2Cl(1),Fe2S2(CO)5Pd(PPh3)3(2), Fe2S2(CO)5Pt(PPh3)3(3)。对它们进行了IR, NMR,EDS, 元素分析, 金属分析和化合物1的X光单晶衍射结构分析。化合物1属单斜晶系, 离子型, P21/n空间群, 晶胞参数a=1.4629(3)nm, b=1.9263(3)nm,c=2.4908(7)nm, β=94.53(2)°, Z=4, R=0.053。     

直接法合成异核羰基金属簇合物及Pd_3(SC_6H_4OH)_3(PPh_3)_3(OH)_2Cl的晶体结构分析

本文根据分子碎片结合原理,用直接法由简单的单质元素,金属盐类及配体,通过控制反应温度,压力,时间及配体用量在CO气氛下一步合成含羰基和不含羰基的簇合物:Pd_3(SC_6H_4OH)_3(PPh_3)_3(OH)_2Cl(1),Fe_2S_2(CO)_5Pd(PPh_3)_3(2),Fe_2S_2(CO)-5Pt(PPh_3)_3(3).对它们进行了IR,NMR,EDS,元素分析,金属分析和化合物1的X光单晶衍射结构分析.化合物1属单斜晶系,离子型,P2_1/n空间群,晶胞参数a=1.4629(3)nm,b=1.9263(3)nm,c=2.4908(7)nm,β=94.53(2)°,Z=4,R=0.053.     

双核有机锡（IV）配合物[Ph_3Sn(CH_3OH)O_2CC_6H_4CO_2(CH_3OH)-SnPh_3]·2CH_3OH和[Ph_3SnS_2CN(CH_2CH_2)_2NCS_2SnPh_3]·2CH_3OH的合成、表征和晶体结构

利用三苯基氯化锡和对苯二甲酸二钠、哌嗪荒酸二钠在甲醇中反应，合成了双 核有机锡（IV）配合物[Ph_3Sn(CH_3OH)O_2CC_6H_4CO_2(CH_3OH)SnPh_3]· 2CH_3OH和[Ph_3SnS_2CN(CH_2CH_2)_2NCS_2SnPh_3]·2CH_3OH（2）。通过元素分 析、红外光谱和核磁共振氢谱对其结构进行了表征。用X射线单晶衍测定了这两个 化合物的晶体结构。化合物质1为单斜晶系，空间群P2_1/n，a = 1.5199(5) nm， b = 0.9000(3) nm，c = 1.8206(6) nm，β=113.970(5)°，Z = 2，V = 2.2755 (13) nm~3，D_c = 1.413 g/cm~3，μ = 1.146 mm~(-1)，F(000) = 980，R_1 = 0.0353，wR_2 = 0.0606。化合物2为单斜晶系，空间群P2_1/c，a = 1.5066(5) nm，b = 1.0875(4) nm，c = 1.3542(5) nm，β=91.614(5)°，Z = 2，V = 2. 2178(14) nm~3，D_c = 1.498 g/cm~3，μ=1.351 mm~(-1)，F(000) = 1008，R_1 = 0.0401，wR_2 = 0.1148。在1和2的晶体中，锡原子呈五配位畸变三角双锥构型 。配合物1由未配位的甲醇分子通过氢键作用形成二维网状结构。     

担载四核羰基簇:FeCo~3(CO)~11PPh 在聚苯乙烯表面簇骼畸变的EXAFS研究

通过配体取人工将四核羰基簇FeCo~3(CO) 锚联在膦化的聚苯乙烯表面,获得担载簇FeCO~3(CO)~11PPh/poly,目的在于使簇骼结构偏离较高对称性,以考察锚联过程对簇结构的影响.本文以EXAFS(Extended x-ray Absorption Fine Struature)方法研究了担载样品的结构.结果显示担载簇与FeCO~3(CO)~11PPh 晶体具有相同的结构模式,尤其是膦配体确实与一Co原子相连接.EXAFS结果表明:(1)与FeCO~3(CO) (其簇骼具有三重对称结构)比较,锚联使Co-Fe键增长0.005nm;金属-金属及金属-桥联碳壳层Debye-Waller因子均增大约一倍而金属一端联碳壳层的值变化很小.说明金属-金属间实际键长值具有一较宽分布,因而其簇骼已偏离了三重对称结构;(2)与FeCO~3(CO)~11PPh 晶体的结构比较,Co-Fe键长长0.003nm而Co-Co键长则短约0.002nm.考虑到EXAFS分析只能给出平均键长值,因此认为,存在于FeCO~3(CO)~11PPh 晶体中的由于一个羰基被膦配体取代而引起的簇骼畸变,在锚联后被加剧.     

担载四核羰基簇:FeCo~3(CO)~11PPh 在聚苯乙烯表面簇骼畸变的EXAFS研究

通过配体取人工将四核羰基簇FeCo~3(CO) 锚联在膦化的聚苯乙烯表面,获得担载簇FeCO~3(CO)~11PPh/poly,目的在于使簇骼结构偏离较高对称性,以考察锚联过程对簇结构的影响.本文以EXAFS(Extended x-ray Absorption Fine Struature)方法研究了担载样品的结构.结果显示担载簇与FeCO~3(CO)~11PPh 晶体具有相同的结构模式,尤其是膦配体确实与一Co原子相连接.EXAFS结果表明:(1)与FeCO~3(CO) (其簇骼具有三重对称结构)比较,锚联使Co-Fe键增长0.005nm;金属-金属及金属-桥联碳壳层Debye-Waller因子均增大约一倍而金属一端联碳壳层的值变化很小.说明金属-金属间实际键长值具有一较宽分布,因而其簇骼已偏离了三重对称结构;(2)与FeCO~3(CO)~11PPh 晶体的结构比较,Co-Fe键长长0.003nm而Co-Co键长则短约0.002nm.考虑到EXAFS分析只能给出平均键长值,因此认为,存在于FeCO~3(CO)~11PPh 晶体中的由于一个羰基被膦配体取代而引起的簇骼畸变,在锚联后被加剧.     

双核有机锡（IV）配合物[Ph_3Sn(CH_3OH)O_2CC_6H_4CO_2(CH_3OH)-SnPh_3]·2CH_3OH和[Ph_3SnS_2CN(CH_2CH_2)_2NCS_2SnPh_3]·2CH_3OH的合成、表征和晶体结构

利用三苯基氯化锡和对苯二甲酸二钠、哌嗪荒酸二钠在甲醇中反应，合成了双 核有机锡（IV）配合物[Ph_3Sn(CH_3OH)O_2CC_6H_4CO_2(CH_3OH)SnPh_3]· 2CH_3OH和[Ph_3SnS_2CN(CH_2CH_2)_2NCS_2SnPh_3]·2CH_3OH（2）。通过元素分 析、红外光谱和核磁共振氢谱对其结构进行了表征。用X射线单晶衍测定了这两个 化合物的晶体结构。化合物质1为单斜晶系，空间群P2_1/n，a = 1.5199(5) nm， b = 0.9000(3) nm，c = 1.8206(6) nm，β=113.970(5)°，Z = 2，V = 2.2755 (13) nm~3，D_c = 1.413 g/cm~3，μ = 1.146 mm~(-1)，F(000) = 980，R_1 = 0.0353，wR_2 = 0.0606。化合物2为单斜晶系，空间群P2_1/c，a = 1.5066(5) nm，b = 1.0875(4) nm，c = 1.3542(5) nm，β=91.614(5)°，Z = 2，V = 2. 2178(14) nm~3，D_c = 1.498 g/cm~3，μ=1.351 mm~(-1)，F(000) = 1008，R_1 = 0.0401，wR_2 = 0.1148。在1和2的晶体中，锡原子呈五配位畸变三角双锥构型 。配合物1由未配位的甲醇分子通过氢键作用形成二维网状结构。     

双三苯膦铁硫原子簇配合物(μ-i-C3H7S)(μ-PhCH2S)-Fe2(CO)4(PPh3)2的合成及晶体结构

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.     

庚烯配位的羰基钌氢簇合物H~3Ru~3(CO)~9(C~7H~1~1)的合成及晶体结构

本文合成了庚烯配位的羰基钌氢簇合物H~3Ru~3(CO)~9(C~7H~1~1),用IR, NMR,MS和元素分析等手段对此簇合物进行了结构表征,推测其为含有金属- 氢键的羰基钌簇合物,并且庚烯的双键被打开.X射线衍射测定进一步肯定了上述结论.簇合物为三斜晶系,空间群为PI.晶胞参数:a=0.9726(2)nm,b=0.9868(1)nm,c=1.1104(2)nm,α=103.22(1)°,β=89.89(1)°,γ=91.55(1)°,V=1.0370(3)nm^3,Z=2,μ=21.59cm^-^1,D~0=2.09g/cm^3,F(000)=628,最终偏差因子R=0.0371     

一种新型的混合金属原子簇化合物(η^5-C5H5)4Mo4Fe2-(μ3-S)5(CO)5的合成和晶体结构

用(η^5-C5H5)2Mo2(CO)6和Fe3S2(CO)9在甲苯中的反应制备了一种新型混合金属原子簇化合物(η^5-C5H5)4Mo4Fe2-(μ3-S)5(CO)5.并用X-射线结构分析测定了它的晶体结构和分子结构.结果表明原子簇的骨架是由[FeMo3S4]的类立方烷孪合[MoFe2S]的三角锥,它们之间共用一个Fe原子.     

异双核化合物PdMo(μ-Ph~2Ppy)~2(μ-CO)(CO)~2I~2.0.5CH~2Cl~2的合成和晶体结构

本文合成了新的异双核化合物PdMo(μ-Ph~2Ppy)~2(μ-CO)(CO)~2I~2.0.5CH~2Cl~2, 对它进行了表征, 并测定其晶体和分子结构。该化合物属PI空间群, a=0.9500(2), b=1.1302(2), c=1.993(1)nm, α=102.82(3),β=101.21(3), γ=94.57(2)°, D~x=1.82g/cm^3, Z=2, R=0.064。晶体结构测定表明, 该化合物具有Pd-Mo键, 键长为0.28596(9)nm。如将Pd-Mo键考虑在内, Pd原子为d^9五配位构型, Mo原子为d^5七配位构型。两者的形式氧化态均为+1。     

Reactivity of the heterometallic clusters [HMCo3(CO)12] and [Et4N][MCo3(CO)12] (M = Fe, Ru) toward phosphine selenides, including selenium transfer. Crystal structures of [HRuCo3(CO)7(mu-CO)3(mu-dppy)], [MCo2(mu3-Se)(CO)7(mu-dppy)], and [RuCo2(mu3-Se)(CO)7(mu-dppm)] [dppy = Ph2(2-C5H4N)P, dppm = Ph2PCH2PPh2

The reactivity of [HMCo3(CO)12] and [Et4N][MCo3(CO)12] (M = Fe, Ru) toward phosphine selenides such as Ph3PSe, Ph2P(Se)CH2PPh2, Ph2(2-C5H4N)PSe, Ph2(2-C4H3S)PSe, and Ph2[(2-C5H4N)(2-C4H2S)]PSe has been studied with the aim to obtain new selenido-carbonyl bimetallic clusters. The reactions of the hydrido clusters give two main classes of products: (i) triangular clusters with a mu3-Se capping ligand of the type [MCo2(mu3-Se)(CO)(9-x)L(y)] resulting from the selenium transfer (x = y = 1, 2, with L = monodentate ligand; x = 2, 4, and y = 1, 2, with L = bidentate ligand) (M = Fe, Ru) and (ii) tetranuclear clusters of the type [HMCo3(CO)12xL(y)] obtained by simple substitution of axial, Co-bound carbonyl groups by the deselenized phosphine ligand. The crystal structures of [HRuCo3(CO)7(mu-CO)3(mu-dppy)] (1), [MCo2(mu3-Se)(CO)7(mu-dppy)] (M = Fe (16) or Ru (2)), and [RuCo2(mu3-Se)(CO)7(mu-dppm)] (12) are reported [dppy = Ph2(2-C5H4N)P, dppm = Ph2PCH2PPh2]. Clusters 2, 12, and 16 are the first examples of trinuclear bimetallic selenido clusters substituted by phosphines. Their core consists of metal triangles capped by a mu3-selenium atom with the bidentate ligand bridging two metals in equatorial positions. The core of cluster 1 consists of a RuCo3 tetrahedron, each Co-Co bond being bridged by a carbonyl group and one further bridged by a dppy ligand. The coordination of dppy in a pseudoaxial position causes the migration of the hydride ligand to the Ru(mu-H)Co edge. In contrast to the reactions of the hydrido clusters, those with the anionic clusters [MCo3(CO)12]- do not lead to Se transfer from phosphorus to the cluster but only to CO substitution by the deselenized phosphine.     

Synthesis and structural characterization of configurational isomers of tungsten-palladium complexes with bridging diphenyl(dithioalkoxycarbonyl)phosphine as a ligand and phosphine transfer from tungsten to palladium

Treatment of the complex [W(CO)5[PPh2(CS2Me)]] (2) with [Pd(PPh3)4] (1) affords binuclear complexes such as anti-[(Ph3P)2Pd[mu-eta 1,eta 2-(CS2Me)PPh2]W(CO)5] (3), syn-[(Ph3P)2Pd[mu-eta 1,eta 2-(CS2Me)PPh2]W(CO)5] (4), and trans-[W(CO)4(PPh3)2] (5). In 3 and 4, respectively, the W and Pd atoms are in anti and syn configurations with respect to the P-CS2 bond of the diphenyl(dithiomethoxycarbonyl)phosphine ligand, PPh2(CS2Me). Complex 3 undergoes extensive rearrangement in CHCl3 at room temperature by transfer of a PPh3 ligand from Pd to W, eliminating [W(CO)5(PPh3)] (7), while the PPh2CS2Me ligand transfers from W to Pd to give [[(Ph3P)Pd[mu-eta 1,eta 2-(CS2Me)PPh2]]2] (6). In complex 6, the [Pd(PPh3)] fragments are held together by two bridging PPh2(CS2Me) ligands. Each PPh2(CS2Me) ligand is pi-bonded to one Pd atom through the C=S linkage and sigma-bonded to the other Pd through the phosphorus atom, resulting in a six-membered ring. Treatment of Pd(PPh3)4 with [W(CO)5[PPh2[CS2(CH2)nCN]]] (n = 1, 8a; n = 2, 8b) in CH2Cl2 affords syn-[(Ph3P)2Pd[mu-eta 1,eta 2-[CS2(CH2)nCN]PPh2]W(CO)5] (n = 1, 9a; n = 2, 9b). Similar configurational products syn-[(Ph3P)2Pd[mu-eta 1,eta 2-(CS2R)PPh2]W(CO)5] (R = C2H5, C3H5, C2H4OH, C3H6CN, 11a-d) are synthesized by the reaction of Pd(PPh3)4 with [W(CO)5[PPh2(CS2R)]] (R = C2H5, C3H5, C2H4OH, C3H6CN, 10a-d). Although complexes 11a-d have the same configuration as 9a,b, the SR group is oriented away from Pd in the former and near Pd in the latter. In these complexes, the diphenyl(dithioalkoxycarbonyl)phosphine ligand is bound to the two metals through the C=S pi-bonding and to phosphorus through the sigma-bonding. All of the complexes are identified by spectroscopic methods, and the structures of complexes 3, 6, 9a, and 11d are determined by single-crystal X-ray diffraction. Complexes 3, 9, and 11d crystallize in the triclinic space group P1 with Z = 2, whereas 6 belongs to the monoclinic space group P2/c with Z = 4. The cell dimensions are as follows: for 3, a = 10.920(3) A, b = 14.707(5) A, c = 16.654(5) A, alpha = 99.98(3) degrees, beta = 93.75(3) degrees, gamma = 99.44(3) degrees; for 6, a = 15.106(3) A, b = 9.848(3) A, c = 20.528(4) A, beta = 104.85(2) degrees; for 9a, a = 11.125(3) A, b = 14.089(4) A, c = 17.947(7) A, alpha = 80.13(3) degrees, beta = 80.39(3) degrees, gamma = 89.76(2) degrees; for 11d, a = 11.692(3) A, b = 13.602(9) A, c = 18.471(10) A, alpha = 81.29(5) degrees, beta = 80.88(3) degrees, gamma = 88.82(1) degrees.     

Ni(II), Pd(II), Pt(II)环戊基(苯基)和膦配合物的低频振动光谱及构型

本工作合成了下述金属配合物: MCl2L2(M=Pd, Pt), NiX2L2(X=Cl, Br, I),L=PPh3-x(C5H9)x(x=0-3), 并研究了它们的远红外光谱和某些低频Raman光谱, 对某些M-P, M-X振动谱带做出了归属, 并提供结构信息。     

（CH3）3NO存在下M（CO）5（M＋Fe,Ru,Os）的CO取代反应动力学研究

在(CH_3)_3NO存在下,PPh_3取代M(CO)_5(M=Fe,Ru,Os)中CO的反应速度遵循二级速度定律,分别与[M(CO)_5]和[(CH_3)_3NO]的一次方成正比,与[PPh_3]无关。反应速度按FeRu>Os的次序约减小4倍。 1 实验方法 典型的动力学实验中,将(CH_3)_3NO的C_2H_5OH溶液和PPh_3的己烷溶液分别用注射器加到体积合适的烧瓶中,再注入Fe(CO)_5并迅速震荡烧瓶,再取出一部分反应液立即注入充N_2     

Unprecedented formation of novel phosphonodithioate ligands from diferrocenyldithiadiphosphetane disulfide

The reaction of the phosphetane disulfide, FcP(S)S 2P(S)Fc ( 1) (Fc = (eta (5)-C 5H 5)Fe(eta (5)-C 5H 4)), the ferrocenyl analogue of the Lawesson reagent, with gold and palladium complexes leads to the unprecedented formation of phosphonodithioate ligands upon coordination to the metal centers. The reaction of 1 with gold complexes such as [AuCl(PR 3)] affords the species [Au{S 2P(OH)Fc}(PR 3)] (PR 3 = PPh 3 ( 2), PPh 2Me ( 3)), in which the phosphonodithioate ligand Fc(OH)PS 2 (-) has been formed. The same ligand is present in the compound [Au 2{S 2P(OH)Fc} 2].[N(PPh 3) 2]Cl ( 4), obtained by reaction of 1 with [N(PPh 3) 2][AuCl 2]. It crystallizes with one molecule of [N(PPh 3) 2]Cl, whereby complex 4 acts as an anion receptor and forms strong hydrogen bonds between the chloro and the hydroxyl groups. The reaction with palladium derivatives is different; two complexes, [Pd 2(S 4OP 2Fc 2) 2] ( 5) and [Pd 4Cl 4(S 4OP 2Fc 2) 2] ( 6), are obtained in molar ratio 2:1 and 1:1, respectively. In these complexes a new phosphonodithioate ligand is present and probably arises from the condensation of two molecules of Fc(OH)PS 2 (-). Complex 5 has also been characterized by X-ray methods.     

[Ho_2(phen)_4(H_2O)_4(OH)_2](phen)_2(NO_3)_4的合成、晶体结构及磁性

在甲醇与水的混合溶剂中,经浓硝酸硝化的Ho_2O_3与1,10-邻菲啰啉反应形 成氢氧根桥联的双核钬配合物[Ho_2(phen)_4(H_2O)_4(OH)_2] (phen)_2(NO_3)_4 （phen = 1,10-邻菲啰啉）。单晶X射线衍射晶体结构测定表明晶体属三斜晶系, P1-bar (no. 2)空间群,晶胞参数a = 1.1241(1) nm, b = 1.1439(1) nm, c = 1. 4058 (1) nm, α = 93.989(7)°, β = 98.173(7)°, γ = 108.19(1)°, V = 1.6874(4) nm~3, Z = 1, D_c = 1.737 g/cm~3, F(000) = 880,7752个独立衍射 点中,5702个可观测点满足F_o~2 ≥ 2σ (F_o~2),R_1 = 0.0499, wR_2 = 0. 858。标题配合物由中心对称的双核[Ho_2(phen)_4(H_2O)_4-(OH)_2]~(4+)配阳离 子,邻菲啰啉phen分子及硝酸根NO_3~-阴离子组成。敏个稀土原子与2个邻菲啰啉 配体,2相水分子和2个氢氧根配位形成配位数为8的[HoN_4O_4]四方反棱柱。配位 多面体通过两氢氧根基团形成共棱的[Ho_2N_8O_6]双四方反棱柱[d(Ho-N) = 0. 2549～0.2565 nm, d(Ho-O_(H_2O) = 0.2356, 0.2366 nm, d(Ho-O_(OH)) = 0. 2223, 0.2240 nm]。通过氢键和芳环堆积作用,配阳离子和邻菲啰啉分子排列形成 平行于（10 1-bar）的两维层结构,NO_3~-阴离子位于层之间。标题配合物为顺磁 物质,在5 ～300K区间内遵循Curie-Weiss定律X_m (T + 4.43) = 14.72 cm~3·K ·mol~(-1)(X_m为每摩尔Ho~(3+)离子磁化率）,其Ho~(3+)离子的室温有效磁矩为 10.76 B. M.,与Ho~(3+)自由离子的磁矩基本相同,表明稀土离子间不存在磁交换 作用。     

四面体异核金属羰基簇合物的合成、表征及单晶结构分析

利用金属交换反应, 使金属羰基配合物PhCCo~3(CO)~9和过渡金属配合物NaMo(CO)~3(RCp)在THF中回流反应, 制备出三个新的异核三金属羰基簇合物PhCCo~2Mo(CO)~8(RCp)(R=HCO, CH~3CO, C~2H~5O~2C)。结果表明, 与金属交换剂NaMo(CO)~3Cp相比较, 环戊二烯上吸电子基团C=O的存在减弱了金属交换剂NaMo(CO)~3(RCp)的交换活性。同时发现加热可加速该反应向产物的转化以及进一步证明了该金属交换反应的普遍性。对合成的簇合物进行了元素分析, 红外和氢的核磁谱的结构表征。对簇合物PhCCo~2(CO)~8(C~2H~5O~2CCp)的单晶进行了X射线结构测定, 该晶体属于单斜晶系, 空间群为P2~1/c, 晶胞参数: α=1.1356(2)nm,b=1.4030(2)nm, c=1.6076(3)nm, β=107.19(1)°, Z=4。D~c=1.80g/cm^3,R=0.048, Rw=0.057。     

制备trans-Fe(CO)_3(PR_3)_2的新的取代过程

报道了用H_2Fe(CO)_4制备trans-Fe(CO)_3(PR_3)_2的新的羰基取代反应。在 过量质子存在下，H_2Fe(CO)_4中的羰基被活化，中心铁原子对膦的亲核进攻更为 敏感。在这种条件下H_2Fe(CO)_4与膦反应时，首先失去氢生成Fe(CO)_4(PR_3), Fe(CO)_4-(PR_3)再与第二个膦反应可高产率的得到trans-Fe(CO)_3(PR_3)_2。用 PPh_3与Fe(CO)_4(PPh_3)在过量质子存在下反应生成trans-Fe(CO)_3(PR_3)_2，证 实了上述过程。