分子筛和γ—Al2O3混合载体上负载Ni和W的加氢裂解催化 …

运用ＥＸＡＦＳ技术对Ｎｉ和Ｗ负载于４种改性Ｙ分子筛与Ａｌ２Ｏ３混合载体上的加氢裂解催化剂进行了研究,结果表明,硫化态催化剂中Ｗ和Ｎｉ均未被完全硫化,除硫化态外,大部分Ｗ处于钨氧硫（ＷＯＳ）状态,而部分Ｎｉ为氧化物,不同分子筛对Ｎｉ和Ｗ的硫化程度的影响不同。另外催化剂中存在少量的ＮｉＷＳ相,载体的Ｂ酸位与催化剂中的ＮｉＷＳ相的多少有较好的相关性。     

制备因素对Ni－W／C催化剂活性及结构的影响

研究了以沥青活性炭为载体的Ｎｉ－Ｗ催化剂制备参数与其加氢脱硫（ＨＤＳ）、加氢脱氮（ＨＤＮ）和加氢脱芳（ＨＤＡ）活性的关系,并利用广延Ｘ射线吸收精细结构．（ＥＸＡＦ）、透射电镜（ＴＥＭ）研究了金属原子的近程配位情况及金属的分散状况．发现金属原子比、催化剂焙烧气氛和温度等对催化剂活性有较大影响．浸渍液ＰＨ值与载体ＰＨＩＥＰ的相对关系对催化活性的影响与浸渍方式有关．表征结果表明,“类ＷＳ２”结构的完整性影响了催化剂活性,焙烧气氛温度影响了金属硫化物的分散度．     

Ni－Cu和TiO_2－SiO_2间的相互作用及其对催化性能的影响

用表面反应改性法制备了ＴｉＯ２－ＳｉＯ２（ＴＳＯ）表面复合物载体．采用ＴＰＲ，ＩＲ，ＴＰＤＭＳ和ＴＰＳＲ－ＭＳ等技术研究了ＮＩ－Ｃｕ／ＴＳＯ间的相互作用及其对ＣＯ加氢反应的催化性能．结果表明，ＮｉＯ－ＣｕＯ与ＴＳＯ间的相互作用导致ＣｕＯ的还原温度降低和ＮｉＯ的还原温度升高，并有少量表面物种生成；还原后的Ｎｉ－Ｃｕ／ＴＳＯ催化剂表面上存在着两类活性中心，即合金相中的Ｎｉ及载体相中的Ｔｉｎ＋（或Ｔｉｎ＋－Ｏ）；ＣＯ在催化剂表面存在孪生、线式、桥式和卧式等４种吸附态；Ｈ２在催化剂表面上发生解离吸附形成Ｎｉ－Ｈ和Ｔｉｎ＋－Ｈ，前者比较活泼，是加氢反应的主要Ｈ源；卧式吸附态极易在催化剂表面裂解形成Ｎｉ－Ｃ和Ｔｉｎ＋－Ｏ，前者是加氢反应的Ｃ源，使ＣＯ加氢生成烃类的反应在Ｎｉ中心上按＂表面碳＂机理进行，其生成乙烯的选择性大于６０％．Ｈ２Ｏ的生成反应在Ｔｉｎ＋中心上按Ｔｉｎ＋－Ｏ与Ｔｉｎ＋－Ｈ或Ｎｉ－Ｈ反应的途径进行．     

p—Si上电沉积Ni—W—P薄膜的结构与热稳定性

研究了ｐ－Ｓｉ上恒电流沉积Ｎｉ－Ｗ－Ｐ合金薄膜组成与结构的关系，讨论了镀层的组成、结构随沉积时间的变化．测定了非晶合金的晶体结构随热处理温度的改变以及ＤＴＡ曲线，结果表明，非晶Ｎｉ－Ｗ－Ｐ合金在晶化过程中形成两个纳米超微晶相，非晶Ｎｉ－Ｗ－Ｐ薄膜的热稳定性远高于通常使用的非晶Ｎｉ－Ｐ薄膜．     

W-Ni/Al2O3-USY催化剂中USY的作用

采用ＥＳＣＡ，ＴＰＲ及高压连续流动反应色谱等技术研究了在Ｗ－Ｎｉ／Ａｌ２Ｏ３中引入超稳Ｙ型分子筛对载体表面性质及催化剂加氢脱氮活性的影响。结果表明：ＵＳＹ可明显改善Ｗ和Ｎｉ的分散状态，提高催化剂的总酸，并可调变Ｂ酸和Ｌ酸的分布；加入ＵＳＹ可提高催化剂的比表面积，但不利于发挥Ｎｉ的助剂作用；加入适宜量的ＵＳＹ，可明显提高催化剂的加氢脱氮活性。     

Ni－Cu和MgO－SiO_2间的相互作用及其对催化性能的影响

本文用ＴＰＲ，ＩＲ，ＴＰＤ和ＴＰＳＲ等技术研究了以表面改性法制备的ＭｇＯ－ＳｉＯ２（ＭＳＯ）表面复合物担载的Ｎｉ－ＣＵ合金间的相互作用及其对ＣＯ加氢反应催化性能的影响．结果表明，ＮｉＯ－ＣｕＯ与ＭＳＯ间的相互作用导致部分ＭＯ与ＭＳＯ形成表面物种从而使金属组分氧化物还原温度明显升高；还原后的Ｎｉ－Ｃｕ／ＭＳＯ表面上存在着两类活性中心，即合金相中的Ｎｉ与载体相中的Ｍｇ２＋（或Ｍｇ２＋－Ｏ）；在两类活性中心的协同作用下，ＣＯ吸附除有孪生、线式和桥式吸附态物种外，还有一种新的卧式吸附态（Ｎｉ．．．Ｃ＝Ｏ→Ｍｇ２＋）．这种吸附态的活化程度较高，易在表面上发生裂解形成Ｎｉ－Ｃ和Ｍｇ２＋－Ｏ，其中Ｎｉ－Ｃ是加氢反应的碳源；Ｈ２在催化剂表面上发生解离吸附形成Ｎｉ－Ｈ和Ｍｇ２＋－ＯＨ，前者比较活泼，是加氢反应的氢原．ＣＯ加氢生成烃类的反应在Ｎｉ中心上按＂表面碳＂机理进行，其生成ＣＺＨ４的选择性高于８０％；Ｈ２Ｏ的生成反应按２（Ｍｇ２＋－ＯＨ）－→Ｍｇ２＋＋（Ｍｇ２＋－Ｏ）＋Ｈ２Ｏ方式进行．     

Mo（W）－Co（Ni，Fe）簇合物的加氢脱硫催化活性

对线型、立方烷型和笼状３种不同构型的Ｍｏ（Ｗ）－Ｃｏ（Ｎｉ，Ｆｅ）－Ｓ（Ｏ）簇共１２种化合物进行了噻吩加氢脱硫和环己烯加氢的催化活性研究．讨论了簇合物的组成，金属原子的配比、价态与催化活性的关系．探讨了不同构型对活性的影响．     

p－Si上电沉积Ni－W合金薄膜

利用恒电流沉积法，在ｐ－Ｓｉ上制备出不同Ｗ含量和不同结构的Ｎｉ－Ｗ薄膜，研究了镀液温度，ｐＨ值，电流密度对镀层组成的影响，结果表明，提高温度有利于获得高Ｗ含量的合金．随着镀层中Ｗ含量的增加，Ｎｉ面心立方晶格ｆ．ｃ．ｃ发生正畸变，晶粒平均尺寸变小，当Ｗ含量达到５６％以上时，晶粒小于２ｎｍ，薄膜呈非晶态结构．     

加氢处理催化剂载体中Y型分子筛组分对催化剂表面性质和催化性能的影响

应用ＸＲＤ，ＸＰＳ，ＩＲ－ＴＰＤ，ＣＯ２和ＮＯ吸附及正庚烷裂解和噻吩加氢脱硫脉冲微反等方法，研究了加氢处理催化剂载体经Ｙ型分子筛改性前后各种性质的变化，结果表明，载体经Ｙ型分子筛改性后，催化剂的Ｂ酸、正庚烷裂解活性和异构选择性明显提高，Ｙ型分子筛以分散的形式分布于γ－Ａｌ２Ｏ３表面，减少了载体表面的空位铝，该催化剂中有盯当一部分金属组分进入Ｙ型分子筛孔道与３其Ｂ酸位作用，与ＮｉＱ／γＡｌ２Ｏ３相比     

硫化态K－MoO_3／γ－Al_2O_3催化剂表面物种的XPS研究

采用Ｘ光光电子能谱（ＸＰＳ）及曲线拟合手段对硫化态Ｋ－ＭｏＯ_３／Ａｌ_２Ｏ_３合成醇催化剂进行了研究，分别考察负载量及硫化前不同条件预处理对催化剂表面的Ｓ、Ｍｏ组分的物种形式及各物种相对含量的影响，以及表面不同组分的相对组成。结果表明，根据其电子结合能变化，Ｓ组分可区分为ＳＯ_４￣（２－）、ＳＯ_３、Ｓ￣０、Ｓ_２￣（２－）、ＭｏＳ_２、ＭｏＳ_（２－ｘ）等六种存在形式不同的物种；Ｍｏ组分可区分为Ｍｏ￣（６＋）、Ｍｏ￣（５＋）、ＭｏＳ_（２＋ｘ）、ＭＯＳ_２、ＭＯＳ_（２－ｘ）等五种存在形式不同的物种。ＭｏＯ_３／Ａｌ_２Ｏ_３．重量比为０．０３的样品，Ｍｏ组分硫化还原不完全，表面Ｓ、Ｍｏ组分均以多种物种形式并存，ＭｏＯ_３／Ａｌ_２Ｏ_３比增加至０．０８和０．２４后，表面Ｓ、Ｍｏ组分中ＭＯＳ_２物种形式所占比例有所增加，样品的硫化还原也较彻底，但负载量增加至ＭｏＯ_３／Ａｌ_２Ｏ_３比为０．３５后，表面存在较多的Ｓ￣（６＋）物种和Ｍｏ￣（６＋）、Ｍｏ（５＋）物种，同时Ｋ组分在表面富集。对ＭｏＯ_３／Ａｌ_２Ｏ_３比为０．２４，样品硫化前不同条件预处理的研究表明，该样品与水蒸汽接触对其表面结构影响很大，与水蒸汽接触后再硫化，其表     

Metal-Directed Formation of Tetra-, Hexa-, Octa-, and Nonanuclear Complexes of Magnesium,Calcium, Manganese,Copper, and Cadmium

Efficacious metal control of self-assembly of dialkylketipinate dianions leads to completely different supramolecular assemblies. The structures of grid 1 , double-decker 2 , triple-decker 3 , and metalla-spherand 4 were characterized by X-ray crystallographic analyses or by NMR spectroscopy.     

Structural, magnetic, and spectroscopic studies of YAgSn, TmAgSn, and LuAgSn

The rare earth-silver-stannides YAgSn, TmAgSn, and LuAgSn were synthesized from the elements by arc-melting and subsequent annealing. The three stannides were investigated by X-ray powder and single-crystal diffraction: NdPtSb type, P6₃mc, Z=2, a=468.3(1), pm, wR₂=0.0343, 353 F² values, 12 variables for YAgSn, and ZrNiAl type, P6¯2 m, a=726.4(2), , wR₂=0.0399, 659 F² values, 15 variables for TmAgSn, and a=723.8(2), , wR₂=0.0674, 364 F² values, 15 variables for LuAgSn. Besides conventional laboratory X-ray data with monochromatized Mo radiation, the structures were also refined on the basis of synchrotron data with , in order to clarify the silver-tin ordering more precisely. YAgSn has puckered, two-dimensional [AgSn] networks with Ag-Sn distances of 278 pm, while the [AgSn] networks of TmAgSn and LuAgSn are three-dimensional with Ag-Sn distances of 279 and 284 pm for LuAgSn. Susceptibility measurements indicate Pauli paramagnetism for YAgSn and LuAgSn. TmAgSn is a Curie-Weiss paramagnet with an experimental magnetic moment of 7.2 μ_B/Tm. No magnetic ordering is evident down to 2 K. The local environments of the tin sites in these compounds were characterized by ¹¹⁹Sn Mössbauer spectroscopy and solid-state NMR (in YAgSn and LuAgSn), confirming the tin site multiplicities proposed from the structure solutions and the absence of Sn/Ag site disordering. Mössbauer quadrupolar splittings were found in good agreement with calculated electric field gradients predicted quantum chemically by the WIEN2k code. Furthermore, an excellent correlation was found between experimental ¹¹⁹Sn nuclear magnetic shielding anisotropies (determined via MAS-NMR) and calculated electric field gradients. Electronic structure calculations predict metallic properties with strong Ag-Sn bonds and also significant Ag-Ag bonding in LuAgSn.     

Transition-metal-free O-, S-, and N-arylation of alcohols, thiols, amides, amines, and related heterocycles

A new protocol for the Ullmann-type arylation process of different aromatic heterocycles without any transition-metal catalyst, implying the use of a combination of an excess of potassium hydroxide and dimethyl sulfoxide, is described. The reaction can be performed between a broad range of starting nucleophiles including phenol, alcohols, amines, nitrogen-containing five-membered systems such as pyrazoles, imidazoles, and indoles, and amides with haloarenes, iodide and bromide derivatives giving the best results, the possible pathway involving the in situ generation of the corresponding benzyne intermediate. When the reaction was performed with 2-iodoaniline and either carboxamides or isothiocyanato derivatives, the corresponding benzoazole derivatives were obtained.     

Synthesis and characterization of metal-centered, six-membered, mixed-valent, heterometallic wheels of iron, manganese, and indium

Heptanuclear metal-centered, six-membered, mixed-valent, heterometallic wheels 1-3 of iron, manganese, and indium were prepared in a one-pot reaction from N-benzyldiethanolamine (H2L(1)), cesium carbonate, [PPh4]2[MnCl4], and FeCl3 or InCl3. All three complexes were characterized by the combination of elemental analysis, FAB mass spectroscopy, X-ray diffraction and cyclic voltammetry and in the case of 1 additionally by M?ssbauer spectroscopy. In 1, four Mn(II) ions in the periphery are arranged in pairs alternating with one Fe(III) ion each, with an Fe(III) ion located in the center. In 2, three Mn(II) ions alternate with three In(III) ions, whereas in 3, four In(III) ions are arranged in pairs and alternate with one Mn(II) ion each. In 2 and 3 an Mn(II) ion is encapsulated in the center.     

Theoretical Study of Molecular Structure,Reactivity, Lipophilicity,and Solubility of N-Hydroxyurea,N-Hydroxythiourea,and N-Hydroxysilaurea

Ab initio molecular orbital methods at the CBS-QB3 level of theory have been used to study the structure and gas-phase stability of various tautomers and rotamers of N-hydroxyurea, N-hydroxythiourea, and N-hydroxysilaurea, their anions and protonated forms. The geometries of N-hydroxyurea, N-hydroxythiourea, and N-hydroxysilaurea, their anions and cations were optimized at the Becke3LYP/CBSB7 level of theory. For all compounds studied, the amidic form is computed to be substantially more stable than the iminolic tautomer. N-Hydroxyurea and its thio and sila derivatives are computed to behave as Nacids in the gas phase. These compounds are in gas-phase weak acids with a calculated acidity of about 1425 to 1355 kJ-mol^–1. Basicities increase in the order: N-hydroxyurea < N-hydroxythiourea < N-hydroxysilaurea. The most stable protonated structures are represented by several isomers with almost equal stability. Thus, in the N-hydroxyurea, N-hydroxythiourea, and N-hydroxysilaurea, both protonation at the double bonded (C=O, C=S and Si=O) oxygen and sulfur atoms, as well as the protonation at the N(H)OH nitrogen basic center is equally probable. The experimental pK _a value (10.6) of N-hydroxyurea and the computed value (9.7) for its monohydrated complex with the specifically hydrogen-bonded water molecule to the ionizable OH group are in a good agreement. The experimental partition coefficient of N-hydroxyurea is best reproduced by the Alog P_s method. The formation of nitroxide radical in the reaction of N-hydroxyurea and its sulfur and silicon substituted derivatives with the phenol radical is an exothermic process. Thus, the \bondN(H)OH moiety of these compounds may quench the structurally related tyrosyl radicals in the active site of ribonucleotide reductase.     

Structure and properties of HOO,HOS, HSO,HSS, FSO,FOS and FSS

High quality SCF-MO calculations are reported for the title molecules, including geometry optimization. One-electron properties are presented and discussed, and relative stabilities of (HOS, HSO) and (FOS, FSO) compared. Little experimental geometric data are available at present, but the calculated and experimental geometries of HO₂ agree well.     

Synthesis of yttrium,lanthanum, neodymium,praseodymium, and lutetium alkoxides and acetylacetonates

A convenient and practical method is proposed for the synthesis of lanthanide and yttrium alkoxides. The method involves dissolving the metals or their hydrides in a solution of dry HCl in the corresponding alcohol, with subsequent dehalogenation of the LnCl₃ solution by an equivalent amount of alkali metal (Na, Li), The rareearth alkoxides are easily converted into acetylacetonates Ln(acac)₃ by the action of acetylacetone.A. N. Nesmeyanov Institute of Elementoorganic Compounds, Russian Academy of Sciences, 117813 Moscow. Translated fromIzvestiya Akademii Nauk, Seriya Khimicheskaya, No. 11, pp. 2490–2493, November, 1992.     

Spectroscopy, electrochemistry, and molecular orbital calculations of metal-free tetraazaporphyrin, -chlorin, -bacteriochlorin, and -isobacteriochlorin

Metal-free tetraazachlorin (TAC), -bacteriochlorin (TAB), and -isobacteriochlorin (TAiB) were characterized by electronic absorption, magnetic circular dichroism (MCD), fluorescence, and time-resolved ESR (TR-ESR) spectroscopy, and by cyclic voltammetry. The results are compared with those of metal-free tetraazaporphyrin (TAP). The potential difference DeltaE between the first oxidation and reduction couples decreases in the order TAP>TAiB>TAC>TAB. The splitting of both the Q and Soret bands decreases in the order TAB>TAC>TAP>TAiB. Corresponding to the split absorption bands, MCD spectra show a minus-to-plus pattern with increasing energy in both the Q and Soret regions, which suggests that the energy difference between the HOMO and second HOMO is larger than that between the LUMO and second LUMO. These spectroscopic properties and redox potentials were reproduced by molecular orbital calculations using the ZINDO/S Hamiltonian. The fluorescence quantum yields of the reduced species are much smaller than that of TAP. The zero-field splitting (ZFS) parameters D and E of the excited triplet states (T1) of these species decrease and increase, respectively, on going from TAP to TAC and further to TAB. The D and E values of TAiB are larger than those of the other species. The results are supported by the absence of interaction between the spin over reduced pyrrole moieties of the HOMO and over the LUMO, and by calculations of ZFS under a half-point-charge approximation.     

Study of geometry and electronic structure of molecules, cation-radicals, and anion-radicals of nitromethane, dimethylnitramine, and ethyl nitrate

The geometry of cation-radicals and anion-radicals of nitromethane, dimethylnitramine, and ethyl nitrate have been computed by means of modern quantum-chemical methods. Their electron affinities and ionization potentials have been determined. The validity of the results has been confirmed by comparison with the experiment.