PHASE STRUCTURES AND TRANSITION BEHAVIORS OF A TRIPHENYLENE DISCOTIC LIQUID CRYSTAL

The phase behaviors and structures of a triphenylene-derived discotic liquid crystal (LC) hexa-n-octoxyl-triphenylene (C8HET) were studied using the combined techniques of differential scanning calorimetry (DSC), wide angle X-ray diffraction (WAXD), selected area electron diffraction (SAED) and polarized light microscopy (PLM). Onedimensional (1D) powder WAXD results at different temperatures coupled with DSC and PLM observations revealed that the C8HET compound possessed an LC phase and three different crystalline (K3, K2 and K1) phases below the isotropic (Ⅰ)melt. The I (←→) LC phase transition was thermodynamically reversible and independent of the heating and cooling rates. The development and experimental observation of the three crystalline phases relied on different thermal histories. Among the three crystalline phases in C8HET, the K3 phase is the most stable phase, while the K2 and K1 phases are metastable. Note that the K1 phase only formed via a quenching process. On the basis of structure sensitive diffraction experiments such as 2D WAXD of oriented samples and SAED of single crystals, detailed structures and molecular packings of these four ordered phases were identified. The LC phase exhibited a hexagonal columnar phase with 2D lattice dimensions of a = b = 2.38 nm and γ= 120°. All the three crystalline phases possess monoclinic unit cells, yet the γ angle is not 90° in the cases of the K2 and the K3 phases, while in the case of the K1 phase the α angle is not 90°.     

SYNDIOSPECIFIC POLYMERIZATION OF STYRENE WITH Ar[O,O/NH]Cp*TiCl ACTIVATED WITH MMAO

A series of titanium complexes Ar[O,E]Cp~*TiCl(Cp~*=C_5Me_5,Ar=1,2-phenylene,E=NH(1a);Ar=1,2- phenylene,E=O(1b);Ar=2.2'-diphenylene,E=O(1c);Ar=2,2'-dinaphthalene,E=O(1d)) has been prepared by the reaction of corresponding phenol derivatives with Cp~*TiCl_3 in the presence of excessive triethylamine.Under the conditions of low Al/Ti molar ratio(e.g.500) and high reaction temperatures(>70℃),all the titanium complexes display higher catalytic activities towards the syndiospecific polymerization of styrene,i...     

CALCULATION OF THE YOUNG’S MODULUS OF AN ADSORBED POLYMER LAYER

 Polymer layers adsorbed to a surface or in a confined environment often change their mechanical properties. There is even the possibility of solidification of the confined layer. To judge the stiffness of such a layer, we used the Hertz model to calculate the Young’s modulus of the polymer layer in the confinement of AFM experiments with silicon nitride tip with a radius of curvature of R » 50 nm and a glass sphere attached to the cantilever R = 5 mm. Since there is no visible indentation of the layer in the AFM experiments, the layer is either penetrated very easily, or the indentation is too small to be seen in a force curve. The latter would be the case for a polymer layer with a Young’s modulus above 4 ´ 10⁸ Pa in case of an experiment with a silicon nitride tip and 4 ´ 10⁵ Pa in case of a glass sphere.     

以5-甲基-3-吡唑甲酸为配体构建的具有六方孔道的钴(Ⅱ)、镍(Ⅱ)超分子化合物：合成、晶体结构和性质

利用5-甲基-3-吡唑甲酸,分别与CoCl2·6H2O和Ni(NO3)2·6H2O反应,得到了配合物[M(MPA)2(H2O)2](1:M=Co;2:M=Ni)(HMPA=5-甲基-3-吡唑甲酸)。用元素分析、红外光谱、X-单晶衍射结构分析对其进行了表征。配合物1和2的晶体结构参数如下:配合物1和2的晶体都属于六方晶系,空间群为R3c。配合物1的晶胞参数为a=1.483 94(4)nm,b=1.483 94(4)nm,c=3.207 66(6)nm,V=6.117 2(3)nm3,Z=18;配合物2的晶胞参数为a=1.466 53(14)nm,b=1.466 53(14)nm,c=3.243 0(6)nm,V=6.04 03(14)nm3,Z=18。金属离子与来自2个5-甲基-3-吡唑甲酸配体中的2个氮原子及2个氧原子,2个水分子中的2个氧原子配位,形成八面体配位构型。配合物中的独立结构单元[M(MPA)2(H2O)2]通过分子间氢键形成具有六方孔道的三维结构。热重分析表明配合物1和2具有较高的热稳定性。此外,考察了配合物1和2的荧光和电化学性质。CCDC:900677,1;900678,2。     

Activation of propargylic alcohols by dimolybdenum tris(μ-thiolate) complexes: Influence of the substituents R in HCCCR2(OH)-vinylidene/allenylidene transformation. Reactivity of allenylidene complexes

Reaction of the bis(nitrile) complex [Mo₂Cp₂(μ-SMe)₃(NCMe)₂](BF₄) (1) with dimethylpropargylic alcohol, HCCCMe₂(OH), at room temperature in dichloromethane produced good yields of the μ-alkynol species [Mo₂Cp₂(μ-SMe)₃{μ-CHCCMe₂(OH)}](BF₄) (2a) through replacement of the two acetonitrile ligands in 1 by the alkynol. The NMR spectra of 2a indicate a μ-η¹:η¹ coordination mode for the alkyne which is thereby incorporated into a dimetallacyclobutene ring like that found here by X-ray diffraction (XRD) analysis of the related complex [Mo₂Cp₂(μ-SMe)₃(μ-η¹:η¹-CHCCO₂Me)](BPh₄) (2b). When 2a was stirred with Et₃N at room temperature in dichloromethane, deprotonation gave high yields of the μ-3-hydroxyalkynyl derivative [Mo₂Cp₂(μ-SMe)₃{μ-η¹:η²-CCCMe₂(OH)}] (3), together with small amounts of the already-known vinylacetylide [Mo₂Cp₂(μ-SMe)₃{μ-η¹:η²-CCC(Me)CH₂}] (4) resulting from dehydration of 3. Treatment of 3 with 1 equiv. of HBF₄ · OEt₂ in diethyl ether at room temperature gave the 3-hydroxyvinylidene derivative [Mo₂Cp₂(μ-SMe)₃{μ-η¹:η²-CCHCMe₂(OH)}](BF₄) (5) as the major product, together with other minor products [Mo₂Cp₂(μ-SMe)₃{μ-η¹:η²-CCHC(Me)CH₂}](BF₄) (6), [Mo₂Cp₂(μ-SMe)₃(μ-η¹:η²-CCCMe₂)](BF₄) (7), [Mo₂Cp₂(μ-SMe)₃(μ-η¹:η²-CCH₂)](BF₄) (8), [Mo₂Cp₂(μ-SMe)₃{μ-η¹:η²-CCH(CHMe₂)}](BF₄) (9) and [Mo₂Cp₂(μ-SMe)₃(μ-O)](BF₄) (10). The vinylidene (6) and allenylidene (7) species resulted from dehydration of the 3-hydroxyvinylidene complex 5 whereas the vinylidene derivative 8 was formed by deketonisation of 5. When 3 reacted with a large excess of HBF₄ · OEt₂ in dichloromethane, the 3-isopropylvinylidene complex 9 was obtained nearly quantatively via a H radical process. When left for several days CD₂Cl₂ solutions of 5 afforded mainly the vinylidene species 8 by deketonisation and the side-oxoproduct [Mo₂Cp₂(μ-SMe)₃(μ-O)](BF₄) (10) by hydrolysis or reaction with oxygen. Addition of nucleophiles (H⁻, OMe⁻, OH⁻, SMe⁻) to the allenylidene complex [Mo₂Cp₂(μ-SMe)₃(μ-η¹:η²-CCCPh₂)](BF₄) (11) resulted in the formation of the corresponding μ-acetylide derivatives [Mo₂Cp₂(μ-SMe)₃(μ-η¹:η²-CCCRPh₂)] [R = H (12), OMe (16a), OH (17), SMe (16b)], which by further reaction with tetrafluoroboric acid afforded either the vinylidene species [Mo₂Cp₂(μ-SMe)₃{μ-η¹:η²-CCH(CRPh₂)}](BF₄) when R = H (13), or the starting complex 11 when R is a leaving group (OMe). Reaction of 13 with Na(BH₄) gave the μ-alkylidyne complex [Mo₂Cp₂(μ-SMe)₃(μ-η¹-CCH₂CPh₂H)] (14) by nucleophilic attack of H⁻ at the C_β carbon atom of the vinylidene chain. Proton addition at C_α in 14 led to the formation of a μ-vinylidene compound 15 containing an agostic C-H bond. New complexes have been characterised by elemental analyses and spectroscopic methods, supplemented for 2b and 3 by X-ray diffraction studies.     

两个手性氧钒配合物[VO(Naph-Leu)(OMe)(CH3OH)]和[VO(Naph-Phe)(OMe)(CH3OH)]的合成、晶体结构和光谱表征

合成了2个新的手性L-亮氨酸萘酚醛和L-苯丙氨酸萘酚醛希夫碱氧钒配合物,[VO(Naph-Leu)(OMe)(CH3OH)](1)和[VO(Naph-Phe)(OMe)(CH3OH)](2)。X-射线单晶衍射分析表明,1晶体属于正交晶系,P21212空间群,晶胞参数为:a=0.946 80(8)nm,b=3.246 3(3)nm,c=0.662 37(5)nm,V=2.035 9(3)nm3,Z=4,F(000)=864,R1=0.046 3,wR2=0.112 7,S=1.076。2晶体属于单斜晶系,P21空间群,晶胞参数为:a=1.113 41(11)nm,b=0.724 09(6)nm,c=1.342 99(12)nm,V=1.047 95(16)nm3,Z=2,F(000)=464,R1=0.035 8,wR2=0.088 8,S=1.024。测定了它们的红外光谱、紫外光谱和圆二色光谱,讨论了紫外吸收光谱和圆二色光谱性质。     

Reactivity of the 30-electron dimolybdenum anion [Mo2(η-C5H5)2(μ-PCy2)(μ-CO)2] towards β,γ-unsaturated organic halides: Alkenyl, allenyl and alkoxycarbyne derivatives

The 30-electron dimolybdenum anion [Mo₂Cp₂(μ-PCy₂)(μ-CO)₂]⁻ reacts at room temperature with allyl chloride to give the unsaturated σ:π-bonded alkenyl derivative trans-[Mo₂Cp₂(μ-η¹:η²-CMeCH₂)(μ-PCy₂)(CO)₂], this requiring a 2,1-hydrogen shift in the allyl moiety probably induced by the unsaturated nature of the dimetal center. In a similar way, the dimolybdenum anion reacts with trans-1-chloro-2-butene (crotyl chloride) to give a mixture of the alkenyl complexes trans-[Mo₂Cp₂(μ-η¹:η²-CEtCH₂)(μ-PCy₂)(CO)₂] and trans-[Mo₂Cp₂(μ-η¹:η²-CMeCHMe)(μ-PCy₂)(CO)₂] in a 3:2 ratio, which could not be separated by column chromatography. All these alkenyl species exhibit a dynamic behavior in solution (fast on the NMR timescale even at low temperatures) involving alternative π-bonding of the alkenyl ligand to each metal center. In contrast, the title anion reacts with propargyl chloride (ClCH₂-CCH) without further rearrangement of the propargyl moiety, to afford the allenyl derivative trans-[Mo₂Cp₂{μ-η²:η³-CH₂CCH)}(μ-PCy₂)(CO)₂] as the major species. Acryloyl chloride (ClC(O)-CHCH₂) also reacts with the title anion to give a mixture of two products, the carbyne complex [Mo₂Cp₂{μ-COC(O)CHCH₂}(μ-PCy₂)(μ-CO)] and the vinyl trans-[Mo₂Cp₂(μ-η¹:η²-CHCH₂)(μ-PCy₂)(CO)₂], in a 1:1 ratio. This reaction is a unique case in which a single electrophile can attack both nucleophilic positions in the dimolybdenum anion, these being located at the O(carbonyl) and metal sites, respectively. The formation of the vinyl derivative requires the decarbonylation of a metal-bound acryloyl group, which proved to be an irreversible reaction, since the addition of CO to the above alkenyl complex gave instead the tricarbonyl vinyl derivative cis-[Mo₂Cp₂(μ-η¹:η²-CHCH₂)(μ-PCy₂)(CO)₃]. The structure of this electron-precise complex was confirmed through a single-crystal X-ray diffraction analysis (Mo−Mo = 3.0858(7) Å).     

二个含水杨酰腙配体的钒配合物的合成与晶体结构研究

2种水杨酰腙配体H2L1(H2L1=邻羟基苯乙酮缩水杨酰腙)和H2L2(H2L2=水杨醛缩水杨酰腙)分别与VO(acac)2反应,合成了2个钒配合物[VOL1(C2H5O)]2(1)和[VOL2(i-C3H7O)](2),利用元素分析、红外光谱、紫外光谱和单晶衍射等手段进行表征。配合物1是由酚氧原子桥联2个金属中心形成的具有晶体学中心对称性的双核钒(V)配合物结构,每个V(V)原子具有扭曲的八面体配位构型。配合物2为单核结构,每个V(V)原子具有扭曲的四角锥配位构型,相邻的配合物分子通过分子间氢键作用形成一维超分子链状结构。采用循环伏安法研究了化合物2的电化学性质。     

Unsaturation in binuclear cyclopentadienylrhodium carbonyls: Comparison with their cobalt analogs

The Cp₂Rh₂(CO)_n (n = 4, 3, 2, 1) derivatives have been examined by density functional theory using the BP86 and MPW1PW91 functionals. The known tricarbonyl Cp₂Rh₂(CO)₃ is predicted to have a singly bridged structure with a predicted Rh–Rh single bond distance of ～2.70 Å in close agreement with the experimental value of 2.68 Å, determined by X-ray crystallography. In contrast to the cobalt analog, no evidence for a triply bridged Cp₂Rh₂(μ-CO)₃ structure was found. The known dicarbonyl Cp₂Rh₂(CO)₂ is predicted to have a doubly bridged structure with a predicted RhRh double bond distance of 2.58 Å in close agreement with the experimental RhRh double bond distance of 2.564 Å, found by X-ray crystallography for the permethylated derivative (η⁵-Me₅C₅)₂Rh₂(μ-CO)₂. The monocarbonyl Cp₂Rh₂(CO) is predicted to have a four-electron donor bridging carbonyl group with a Rh–O distance of ～2.5 Å and a RhRh double bond distance of ～2.54 Å. This differs from Cp₂Co₂(CO) which was previously predicted to have only a two-electron donor bridging carbonyl group with a long Co?O distance and a short CoCo distance of ～2.0 Å suggesting a formal triple bond. For Cp₂Rh₂(CO)₄ doubly bridged trans and cis isomers were found within ～1.0 kcal/mol in energy with non-bonding Rh?Rh distances of ～3.2 Å. However, these Cp₂Rh₂(CO)₄ isomers are predicted to be unstable with respect both to CO loss to give Cp₂Rh₂(CO)₃ and to fragmentation into two CpRh(CO)₂ units.     

Syntheses,structures and comparative electrochemical study of π-acetylene complexes of cobalt

The preparation and characterization of the complexes [Co₂(CO)₄(μ-dppm)]₂(μ-η²-Me₃SiC₂(CC)₂C₂H) (2), [Co₂(CO)₄(μ-dppm)]₂(μ-η²-HC₂(CC)₂C₂H) (3), Co₂(CO)₄(μ-dmpm)(μ-η²-Me₃SiC₂CCSiMe₃) (4), Co₂(CO)₄(μ-dmpm)(μ-η²-Me₃SiC₂CCH) (5), [Co₂(CO)₄(μ-dmpm)]₂(μ-η²-Me₃SiC₂(CC)₂C₂SiMe₃) (6) and [Co₂(CO)₄(μ-dmpm)]₂(μ-η²-HC₂(CC)₂C₂H) (7) are described. A comparative electrochemical study of all these complexes and the related [Co₂(CO)₄(μ-dppm)]₂(μ-η²-Me₃SiC₂(CC)₂C₂SiMe₃) (1), Co₂(CO)₄(μ-dppm)(μ-η²-Me₃SiC₂CCH) and Co₂(CO)₄(μ-dppm)(μ-η²-HC₂CCH) is presented by means of the cyclic and square-wave voltammetry techniques. Crystals of 2 and 3 suitable for single-crystal X-ray diffraction were grown and the molecular structures of these compounds are discussed.     

Cp2Ti{[OC(O)C5H4]Cr(CO)2NO]}2 and Cp2Ti{[(OC(O)C5H4]Cr(NO)2X}2 syntheses and spectra of chromium-titanium complexes bridged by carboxylate substituted cyclopentadienyl group

Complete demethylation of Cp₂Ti(CH₃)₂ in dichloromethane with 2 M equivalent of [η⁵-(C₅H₄COOH)]Cr(CO)₂NO (5), [η⁵-(C₅H₄COOH)]Cr(NO)₂X] (X = Cl 6, X = I 7), and [η⁵-(C₅H₄COOH)]W(CO)₃CH₃ (8); gives Cp₂Ti{[OC(O)C₅H₄]Cr(CO)₂NO}₂ (13), Cp₂Ti{[OC(O)C₅H₄]Cr(NO)₂Cl}₂ (14), Cp₂Ti{[OC(O)C₅H₄]Cr(NO)₂I}₂ (15),and Cp₂Ti{[OC(O)C₅H₄]W(CO)₃CH₃}₂ (16), respectively. The chemical shifts of C(2)-C(5) carbon atoms of compounds 13-15 have been assigned using two-dimensional HetCOR NMR spectroscopy. The assigned chemical shifts were compared with the NMR data of their analogues of ferrocene, and the opposite correlation on the assignments was observed for cynichrodenoyl moieties.     

低固相含量SiO2分散体系流变性研究

以甘油(GL)和聚乙二醇(PEG)为分散介质, 研究了低体积分数(Φ＜8%)的SiO₂分散体系的稳态和动态的流变性能, 发现体系都具有可逆的剪切变稀和剪切增稠现象. 在剪切速率大于临界剪切速率(γ^_.＞γ_^.c)时, 体系具有明显的剪切增稠现象, 而当γ^_.＜γ_^.c, GL体系只有轻微的剪切变稀现象, PEG体系剪切变稀现象却很明显. 在动态试验中考察了模量以及损耗角正切tg δ随剪切应力(σ)的变化. 在所研究的应力范围内, 体系中耗能模量G"都大于储能模量G', tg δ大于1, 体系主要表现为粘性. 用“粒子簇”生成机理能较好地解释这种剪切变稀和剪切增稠现象, 即剪切变稀是由于连续的空间网络结构被破坏, PEG体系剪切变稀现象较GL体系明显应该与PEG高分子链的松弛以及体系中较少的氢键有关; 剪切增稠是由于粒子簇的生成引起的.     

Novel heterotetrametallic compounds derived from 1-(ferrocenylethynyl)(η6-arene)tricarbonylchromium

The synthesis and characterization of two new heterotetrametallic complexes are described. Reaction of [Cr(CO)₃(η⁶-C₆H₅)CC-{(η⁵-C₅H₄)Fe(η⁵-C₅H₅)}](1) with Co₂(CO)₈ or Cp₂Mo₂(CO)₄ afford the heterotetrametallic complexes [Cr(CO)₃(η⁶-C₆H₅){Co₂(CO)₆-μ²-η²-CC–}(η⁵-C₅H₄)Fe(η⁵-C₅H₅)}](2), and [Cr(CO)₃(η⁶-C₆H₅){Mo₂Cp₂(CO)₄-μ²-η²-CC–}(η⁵-C₅H₄)Fe(η⁵-C₅H₅)](3) in 80% and 41% yield, respectively. All complexes have been characterized by elemental analysis, multinuclear (¹H, ¹³C) NMR, and by single-crystal X-ray diffraction studies for 1 and 3. Structural data reveal that the coordination of dimolybdenum moiety to the alkyne unit influence the orientation of the carbonyl groups coordinated to the chromium as well as the Cp rings bound to the iron metal centre.     

Electrochemical, EPR and computational results on [Fe2Cp2(CO)2]-based complexes with a bridging hydrocarbyl ligand

The dimetallacyclopentenone complexes [Fe₂Cp₂(CO)(μ−CO){μ−η¹:η³−C_αHC_β(R)C(O)}] (R = CH₂OH, 1a; R = CMe₂OH, 1b; R = Ph, 1c) were prepared by photolytic reaction of [Fe₂Cp₂(CO)₄] with alkyne according to the literature procedure. The X-ray and the electrochemical characterization of 1c are presented. The μ-allenyl compound [Fe₂Cp₂(CO)₂(μ−CO){μ−η¹:η²_α,β−C_αHC_βCMe₂][BF₄] ([2][BF₄]), obtained by reaction of 1b with HBF₄, underwent monoelectron reduction to give a radical species which was detected by EPR at room temperature. The EPR signal has been assigned to [Fe₂Cp₂(CO)₂(μ−CO){μ−η¹:η²_α,β-C_αHC_βCMe₂}], [2]^•. The molecular structures of [2]⁺ and [2]^• were optimized by DFT calculations. The unpaired electron in [2]^• is localized mainly at the metal centers and, coherently, [2]^• does not undergo carbon-carbon dimerization, by contrast with what previously observed for the μ-vinyl radical complex [Fe₂Cp₂(CO)₂(μ−CO){μ−η¹:η²-CHCH(Ph)}]^•, [3]^•. Electron spin density distributions similar to the one of [2]^• were found for the μ-allenyl radical complexes [Fe₂Cp₂(CO)₂(μ-CO){μ-η¹:η²_α,β-C_αHC_βC(R¹)(R²)}]^• (R¹ = R² = H, [4]^•; R¹ = H, R² = Ph, [5]^•; R¹ = R² = Ph, [6]^•).     

Syntheses and spectra of chromium-titanium complexes bridged by carboxylate substituted cyclopentadienyl group: The structure of Cp2Ti(CH3){[OC(O)C5H4]Cr(NO)2Cl}

Mono-demethylation of Cp₂Ti(CH₃)₂ in dichloromethane with 1 M equivalent of [η⁵-(C₅H₄COOH)]Cr(CO)₂NO (5), [η⁵-(C₅H₄COOH)]Cr(NO)₂X] (X = Cl 6, X = I 7) and [η⁵-(C₅H₄COOH)]W(CO)₃CH₃ (8) gives Cp₂Ti(CH₃){[OC(O)C₅H₄]Cr(CO)₂NO} (9), Cp₂Ti(CH₃){[OC(O)C₅H₄]Cr(NO)₂Cl} (10), Cp₂Ti(CH₃){[OC(O)C₅H₄]Cr(NO)₂I} (11) and Cp₂Ti(CH₃){[OC(O)C₅H₄]W(CO)₃CH₃} (12), respectively. The structure of 10 has been solved by X-ray diffraction studies. One of the nitrosyl groups is located at the site away from the exocyclic carbonyl carbon of the Cp(Cr) ring with twist angle of 178.1°. All the data reveals that Cp₂Ti(CH₃)- is a strong electron-donating group. The opposite correlation was observed on the chemical shift assignments of C(2)-C(5) in compounds 5-12, using HetCOR NMR spectroscopy, as compared with the NMR data of their ferrocene analogues. The electron density distribution in the cyclopentadienyl ring is discussed on the basis of ¹³C NMR data and those of 10 are compared with the calculations via density functional B3LYP correlation- exchange method.     

Synthesis of air-stable mixed bis-carboxylate titanocene complexes and their catalytic behaviors in cross-aldol and Mannich reactions

Tunable organometallic Lewis acid catalysts were developed by combining salicylic acid (H₂-Sal) with benzoic acid (H-Ben), 4-fluorobenzoic acid (H-BenF) and 3-thiophenic acid (H-Th), as coligands for mixed bis-carboxylate titanocene complexes. Three air-stable complexes [Cp₂Ti(η¹-HSal)(η¹-Ben)] (1), [Cp₂Ti(η¹-HSal)(η¹-BenF)] (2) and [Cp₂Ti[η¹-HSal][(η¹-Th)] (3) were prepared in high yields by the reaction of salicylato titanocene chelate with carboxylate ligands. The mixed bis-carboxylate titanocene complexes were fully characterized by physicochemical and spectroscopic methods. Single-crystal X-ray diffraction studies revealed Ti–O_(H-Sal) bond distances in 1, 2 and 3 of 1.972(3), 1.9245(18) and 1.912(5) Å, respectively, while the bond distances involving the coligands of 1, 2 and 3 are 1.908(3) Å (Ti–O_Ben), 1.9296(19) Å (Ti–O_BenF) and 1.945(5) Å (Ti–O_Th), respectively. These bis-carboxylate titanocene complexes showed satisfactory activities and selectivities in Mannich and cross-aldol reactions. Notably, complex 3 bearing the labile thiophene carboxylate ligand gave high yields with a diastereomer ratio (d.r.) as high as 1:99 for the direct Mannich reactions of benzaldehyde, cyclohexanone and aniline. In cross-aldol reaction of benzaldehyde and cyclohexanone, 1 and 2 successfully catalyzed the formation of double-aldol products in up to 99 % yield.     

Alkynyl Ti-M complexes based on M(CO)4 and MO2 building blocks (M = Mo, W)

The synthesis and properties of heterobimetallic Ti-M complexes of type {[[Ti](μ-η¹:η²-CCSiMe₃)][M(μ-η¹:η²-CCSiMe₃)(CO)₄]} (M = Mo: 5, [Ti] = (η⁵-C₅H₅)₂Ti; 6, [Ti] = (η⁵-C₅H₄SiMe₃)₂Ti; M = W: 7, [Ti] = (η⁵-C₅H₅)₂Ti; 8, [Ti] = (η⁵-C₅H₄SiMe₃)₂Ti) and {[Ti](μ-η¹:η²-CCSiMe₃)₂}MO₂ (M = Mo: 13, [Ti] = (η⁵-C₅H₅)₂Ti; 14, [Ti] = (η⁵-C₅H₄SiMe₃)₂Ti). M = W: 15, [Ti] = (η⁵-C₅H₅)₂Ti; 16, [Ti] = (η⁵-C₅H₄SiMe₃)₂Ti) are reported. Compounds 5-8 were accessible by treatment of [Ti](CCSiMe₃)₂ (1, [Ti] = (η⁵-C₅H₅)₂Ti; 2, [Ti] = (η⁵-C₅H₄SiMe₃)₂Ti) with [M(CO)₅(thf)] (3, M = Mo; 4, M = W) or [M(CO)₄(nbd)] (9, M = Mo; 10, M = W; nbd = bicyclo[2.2.1]hepta-2,5-diene), while 13-16 could be obtained either by the subsequent reaction of 1 and 2 with [M(CO)₃(MeCN)₃] (11, M = Mo; 12, M = W) and oxygen, or directly by oxidation of 5-8 with air. A mechanism for the formation of 5-8 is postulated based on the in-situ generation of [Ti](CCSiMe₃)((η²-CCSiMe₃)M(CO)₅), {[Ti](μ-η¹:η²-CCSiMe₃)₂}-M(CO)₄, and [Ti](μ-η¹:η²-CCSiMe₃)((μ-CCSiMe₃)M(CO)₄) as a result of the chelating effect exerted by the bis(alkynyl) titanocene fragment and the steric constraints imposed by the M(CO)₄ entity.The molecular structure of 5 in the solid state were determined by single crystal X-ray diffraction analysis. In doubly alkynyl-bridged 5 the alkynides are bridging the metals Ti and Mo as a σ-donor to one metal and as a π-donor to the other with the [Ti](CCSiMe₃)₂Mo core being planar.     

Preparation and characterization of cobalt-containing alcohols and diols

A series of cobalt-containing alcohols and diols were prepared and characterized. Intramolecular hydrogen-bonding was observed for the cobalt-containing diols [Co₂(CO)₆(μ-η-(HO)R₁R₂CCCCR₁R₂(OH)] (1: R₁ = CH₃, R₂ = C₂H₅; 2: R₁ = CH₃, R₂ = C₃H₇), [Co₂(CO)₆(μ-η-(HO)Ph₂CCCCPh₂(OH)] (3) and [(μ-PPh₂CH₂PPh₂)Co₂(CO)₄(μ-η-(HO)Ph₂CCCCPh₂(OH)] (4). Potentially all the four compounds could serve as chelating O,O-ligands. In principle, it is possible for compounds [(μ-PPh₂NHPPh₂)Co₂(CO)₄(μ-η-HCCCPh₂OH)] (5b), [Co₂(CO)₆(μ-η-HCCC₂H₄OH] (6) and [Co₂(CO)₆(μ-η-HCCC₃H₆OH)] (7) in their syn-conformations to behave as chelating O,N-ligands. To the best of our knowledge, compounds 5b, 6 and 7 are the first reported examples of PPh₂NHPPh₂-bridged dicobalt complexes.     

三核苯甲酸铁配合物[Fe3O(OBZ)6(H2O)3](NO3)(acetone)5(OBZ-=苯甲酸根)的结构和磁性

合成了三核苯甲酸铁配合物［Ｆｅ３Ｏ（ＯＢＺ）６（Ｈ２Ｏ）３］（ＮＯ３）（ａｃｅｔｏｎｅ）５。测定了其晶体结构，其中三个铁形成等边三角形结构。配合物的变温磁化率表明，分子内三个铁之间有弱的反应磁性交换作用，Ｊ＝－３３．１８ｃｍ＾－１。分子之间则有更弱的反铁磁性交换作用，ＺＪ＾＇＝－１．１４ｃｍ＾－１。     

Methylation sites in tris(μ-thiolato)dimolybdenum(III) complexes

Attempts at methylating cis-[Mo₂Cp₂(μ-SMe)₃L₂](BF₄) [Cp = η⁵-C₅H₅; L = CO (1a) CNxyl (1b), CNBu^t (1c), NCMe (1d)] with methyl triflate gave the corresponding thioether-bridged cations [Mo₂Cp₂(μ-SMe)₂(μ-SMe₂)L₂]²⁺ (4²⁺), except in the case of 1a which did not react at room temperature. The electronic properties of the ancillary ligands L thus have a crucial influence on the course of this reaction. The dimeric compounds [Mo₂Cp₂(μ-SMe)₃(CNBu^t)(CN)] (2) and [Mo₂Cp₂(μ-SMe)₃{μ-η¹-NC(CH₃)CH₂CN}] (3), which potentially offer the alternatives of S- or N-methylation, reacted with methylating agents to give mainly the S-methylated derivatives 5 and 7. Only in the case of the nucleophilic reactant 2 was N-methylation also observed and isomer 6 was obtained as a minor product together with 5. New complexes have been completely characterised by multinuclear NMR, IR and elemental analysis, supplemented for 5 by X-ray diffraction study at 100 K.