贮氢合金用作硝基苯电解加氢的催化电极研究

贮氢合金用作硝基苯电解加氢的催化电极研究卢世刚，杨汉西，王长发（武汉大学化学系，武汉１３００７２）混合稀土贮氢合金是近年来发展起来的新型功能材料。在室温下它可以吸收比自身体积大几百倍的氢原子形成金属氢化物．这种金属氢化物可作为氢源提供高反应活性的氢原...     

贮氢合金LaNi_（3．8）Co_（0．5）Mn_（0．4）Al_（0．3）表面

贮氢合金ＬａＮｉ_（３．８）Ｃｏ_（０．５）Ｍｎ_（０．４）Ａｌ_（０．３）表面化学镀镍的研究张允什，陈军（南开大学新能源材料化学研究所，天津，３０００７１）关键词贮氢合金，化学镀镍，镍／氢电池目前，稀土系贮氢合金应用于镍／金属氢化物（镍／氢）电池存在的...     

过渡金属氢化物的合成方法

概述了过渡金属氢化物尤其是钌氢配合物的氧化加成、M-X还原、质子化、过渡金属氢化物转化和原子簇过渡金属配合物氢聚等合成方法的进展情况.     

钌氢配合物的合成及其在催化有机合成中的应用

配位催化己成实现绿色化学中的重要手段之一[1,2].过渡金属配合物是重要的配位催化剂,但中心金属多为贵金属,其中钌的儲量较大,也较便宜.不过,钌配合物的催化性能也较差.在国内外学者的努力下,近年在钌配合物的合成和催化方面都得到很大发展[3],如钌卡宾[C l2Ru(=CHPh)(PCy3)2]催化的交互置换反应获2005年Nobel化学奖[4].过渡金属氢配合物是一类重要的配合物,被称为“催化反应的关键”[5].如铱氢配合物首开了活化饱和碳氢键的先河,铼氢配合物实现了饱和碳氢键催化循环[6];钌氢配合物在催化加氢等反应中也表现不俗[7].我们试图对钌氢配合…     

钼烷氧基配合物的合成及β-H消去反应

许多过渡金属的烷氧基配合物具有对酮和醛的催化加氢以及对醇的催化脱氢的均相催化作用[1,2 ].过渡金属烷氧基配合物同过渡金属烷基配合物一样可以发生 β Ｈ消去反应 ,生成氢基配合物和醛或酮[3].对于重过渡系单核烷氧基配合物的合成和性质已有很多报道[4],而对钼的单核烷氧基配合物的研究比较少 .有关一系列二茂钼烷氧基配合物的合成已有报道[5].本文合成了几种二茂钼烷氧基衍生物 ,并对其 β Ｈ消去反应进行了研究 .Ｃｐ2 ＭｏＯＨＭｏＣｐ2ＯＨ2 (ＯＴｓ- ) 2ＲＯＨ2ＰＭｅ3Ｃｐ2 ＭｏＯＲＰＭｅ3 ＯＴｓ- Δ Ｃｐ2 ＭｏＨＰＭｅ3 ＯＴ…     

金属间化合物的阴极贮氢和催化作用

一、概述氢的贮存是开发氢能源中的重大研究课题之一。近年来通过各国科学家的努力工作,特别是Zijlstra、Van Vucht等人相继发现了具有可逆贮氢性能的金属间化合物之后,出现了把氢气固化贮存的新方法。所谓固化法贮氢,就是利用某些金属简化合物能与氢形成不太稳定的氢化物,这就犹如把气态氢变成了固态氢,因之而达到安全贮运氢的目的。例如经过活化     

镧镍体系(LaNi5-xMx)吸氢化合物的研究(Ⅰ)——LaNi5的化学合成及吸氢性能

过渡金属氢化物因与氢能源的利用紧密有关,近年来在国际上引起极大注意。本文提出了吸氢化合物LaNi₅的一种新的合成方法--共沉淀还原法,并详细研究了反应过程。     

三维骨架{[Cu(1,2-pn)2]4[V18O42(H2O)]}n·8nH2O化合物的水热合成和晶体结构

多孔材料广泛应用于吸附、形状和尺寸选择性的多相催化和离子交换. 利用有机胺分子的模板和结构导向作用已设计合成了许多沸石分子筛、中孔MCM-41和非致密过渡金属磷酸盐等多孔性氧化物材料[1～4]. 过渡金属氧簇结构中普遍存在金属-金属键, 业已证明金属氧簇合物具有催化活性[5,6]. 可以预期, 以金属氧簇为构筑块(Building blocks)组装而成的多孔性化合物不仅将具有沸石分子筛等材料的吸附特性和形状、尺寸选择性, 而且还将具有氧化还原等催化活性. 同时, 由于金属氧簇所具有的显著表面效应, 此类化合物的研究对揭示金属氧化物催化材料与底物的催化作用机制研究很有益处[7].     

MlNi4Al和MlNi4Mn贮氢电极性能的研究

ＭｌＮｉ４Ａｌ和ＭｌＮｉ４Ｍｎ贮氢电极性能的研究＊赵东江马松艳（绥化师专化学系绥化１５２０６１）关键词贮氢电极循环寿命自放电中图分类号Ｏ６４６．５４镍／氢化物（Ｎｉ／ＭＨ）二次电池以其洁净、安全、高容量、大功率及长寿命等特点受到极大关注。贮氢电极材料...     

多孔聚合物贮氢材料的研究进展

微孔聚合物由于具有较高的比表面积,因此可用作物理吸附贮氢材料.本文通过比较0.1MPa、77K下自具微孔聚合物、超交联聚合物等多孔聚合物与其它多孔贮氢材料(如碳材料、金属有机网络等)的贮氢性能,阐述了比表面积、孔尺寸及孔形貌、与氢气的作用力等因素对多孔聚合物贮氢量的影响,由于合成超交联聚合物的单体多且孔形貌容易控制,因此超交联聚合物成为具有发展潜力的贮氢聚合物.     

Comparison of Some Computational Methods for Geometry Optimisation of Phosphorus Acid Derivatives

Several economical methods for geometry optimization, that should be applicable to larger molecules, have been evaluated for 19 phosphorus acid derivatives. MP2/cc-pVDZ geometry optimizations are used as reference points and the geometries obtained from the other methods are evaluated with respect to deviations in bond lengths and angles, from the reference geometries. The geometry optimization methods are also compared to the much used B3LYP/6-31G(d) method. Single point energies obtained by subsequent EDF1/6-31+G(d) or B3LYP/6-31+G(d,p) calculations on the respective equilibrium geometries are also reported relative to the energies obtained from the reference geometries. The geometries from HF/MIDI! optimizations were closer to those of the references than the geometries of the HF/3-21G(d), HF/6-31G(d), and B3LYP/MIDI! optimizations. The EDF1/6-31+G(d) or B3LYP/6-31+G(d,p) single point energies obtained from the HF/3-21G(d), HF/6-31G(d), and B3LYP/MIDI! geometries gave a mean absolute deviation (MAD) from that of the reference geometries of 1.4-3.9 kcal mol m 1 . The HF/MIDI! geometries, however, gave EDF1/6-31+G(d) and B3LYP/6-31+G(d,p) energies with a MAD of only about 0.5 and 0.55 kcal mol m 1 respectively from the energies obtained with the reference geometries. Thus, use of HF/MIDI! for geometry optimization of phosphorus acids is a method that gives geometries of near-MP2 quality, resulting in a fair accuracy of energies in subsequent single point calculations, at a much lower computational cost other methods that give similar accuracies.     

Energetics of the O-H bond and of intramolecular hydrogen bonding in HOC6H4C(O)Y (Y = H, CH3, CH2CH=CH2, C[triple bond]CH, CH2F, NH2, NHCH3, NO2, OH, OCH3, OCN, CN, F, Cl, SH, and SCH3) compounds

The energetics of the phenolic O-H bond in a series of 2- and 4-HOC 6H 4C(O)Y (Y = H, CH3, CH 2CH=CH2, C[triple bond]CH, CH2F, NH2, NHCH 3, NO2, OH, OCH3, OCN, CN, F, Cl, SH, and SCH3) compounds and of the intramolecular O...H hydrogen bond in 2-HOC 6H 4C(O)Y, was investigated by using a combination of experimental and theoretical methods. The standard molar enthalpies of formation of 2-hydroxybenzaldehyde (2HBA), 4-hydroxybenzaldehyde (4HBA), 2'-hydroxyacetophenone (2HAP), 2-hydroxybenzamide (2HBM), and 4-hydroxybenzamide (4HBM), at 298.15 K, were determined by micro- or macrocombustion calorimetry. The corresponding enthalpies of vaporization or sublimation were also measured by Calvet drop-calorimetry and Knudsen effusion measurements. The combination of the obtained experimental data led to Delta f H m (o)(2HBA, g) = -238.3 +/- 2.5 kJ.mol (-1), DeltafHm(o)(4HBA, g) = -220.3 +/- 2.0 kJ.mol(-1), Delta f H m (o)(2HAP, g) = -291.8 +/- 2.1 kJ.mol(-1), DeltafHm(o)(2HBM, g) = -304.8 +/- 1.5 kJ.mol (-1), and DeltafHm(o) (4HBM, g) = -278.4 +/- 2.4 kJ.mol (-1). These values, were used to assess the predictions of the B3LYP/6-31G(d,p), B3LYP/6-311+G(d,p), B3LYP/aug-cc-pVDZ, B3P86/6-31G(d,p), B3P86/6-311+G(d,p), B3P86/aug-cc-pVDZ, and CBS-QB3 methods, for the enthalpies of a series of isodesmic gas phase reactions. In general, the CBS-QB3 method was able to reproduce the experimental enthalpies of reaction within their uncertainties. The B3LYP/6-311+G(d,p) method, with a slightly poorer accuracy than the CBS-QB3 approach, achieved the best performance of the tested DFT models. It was further used to analyze the trends of the intramolecular O...H hydrogen bond in 2-HOC 6H 4C(O)Y evaluated by the ortho-para method and to compare the energetics of the phenolic O-H bond in 2- and 4-HOC 6H 4C(O)Y compounds. It was concluded that the O-H bond "strength" is systematically larger for 2-hydroxybenzoyl than for the corresponding 4-hydroxybenzoyl isomers mainly due to the presence of the intramolecular O...H hydrogen bond in the 2-isomers. The observed differences are, however, significantly dependent on the nature of the substituent Y, in particular, when an intramolecular H-bond can be present in the radical obtained upon cleavage of the O-H bond.     

1-(4-甲氧基)苯甲酰基-3-(4,6-二甲基嘧啶-2-氨基)硫脲的晶体结构、 理论计算及生物活性

2-氨基-4,6-二甲基嘧啶与硫氰酸钾、4-甲氧基苯甲酰氯在乙酸乙酯中反应, 合成了1-(4-甲氧基)苯甲酰基-3-(4,6-二甲基嘧啶-2-氨基)硫脲, 并用X射线单晶衍射法测定其晶体结构, 晶体属单斜晶系, 空间群为P21/n, 晶胞参数为: a＝1.0134(4) nm, b＝1.3172(5) nm, c＝1.0988(4) nm, β＝91.671(8)°, V＝1.4661(9) nm3, Dc＝1.433 g/cm3, μ＝0.234 mm－1, F(000)＝664, Z＝4, R1＝0.0571, wR2＝0.1328. 运用Gaussian 03程序, 对标题化合物进行了HF/6-31＋g(d)和B3LYP/6-31＋g(d)水平的几何全优化和频率计算, 并对其成键情况及自然键轨道(NBO)进行了分析. 初步实验证明该化合物具有良好的生物活性.     

Theoretical investigation of cis- and trans-nitric oxide dimers with ab initio and density functional Gaussian-type orbital approach

Structures and total energies of the cis-NO dimer, the trans-NO dimer, and the NO monomer were calculated by ab initio methods (UHF , UMP 2, and MP 3) and density functional theory methods (LSDA and BLYP ) with different basis sets [from 3-21G* to 6-311++(3df,3pd)]. The system is especially hard to model because two NO molecules are weakly associated in a dimer that has a very long N? N bond. The results obtained by different methods are compared and the necessity of correlational methods for studying these systems is discussed. © 1995 John Wiley & Sons, Inc.     

A comparative molecular field analysis (CoMFA) study using semiempirical, density functional, ab initio methods and pharmacophore derivation using DISCOtech on sigma 1 ligands

The Comparative Molecular Field Analysis (CoMFA) was developed to investigate a three-dimensional quantitative structure activity relationship (3D-QSAR) model of ligands for the sigma 1 receptor. The starting geometry of sigma-1 receptor ligands was obtained from the Tripos force field minimizations and conformations were decided from DISCOtech using the SYBYL 6.8. program. The structures of 48 molecules were fully optimized at the ab initio HF/3-21G* and semiempirical AM1 calculations using GAUSSIAN 98. The electrostatic charges were calculated using several methods such as semiempirical AM1, density functional B3LYP/3-21G*, and ab initio HF/3-21G*, MP2/3-21G* calculations within GAUSSIAN 98. Using the optimized geometries, the CoMFA results derived from the HF/3-21G method were better than those from AM1. The best CoMFA was obtained from HF/3-21G* optimized geometry and charges (R2 = 0.977). Using the optimized geometries, the CoMFA results derived from the HF/3-21G methods were better than those from AM1 calculations. The training set of 43 molecules gave higher R2 (0.989-0.977) from HF/3-21G* optimized geometries than R2 (0.966-0.911) values from AM1 optimized geometries. The test set of five molecules also suggested that HF/3-21G* optimized geometries produced good CoMFA models to predict bioactivity of sigma 1 receptor ligands but AM1 optimized geometries failed to predict reasonable bioactivity of sigma 1 receptor ligands using different calculations for atomic charges.     

Molecular orbital and DFT studies of the alimemazine radical cation

Semiempirical molecular orbital methods including CNDO, MNDO, AM1 and PM3, and density function theory method B3LYP/3-21G(d) were employed in the study of the alimemazine radical cation. It was found that PM3 was much better than CNDO, MNDO and AM1 in the structural optimization. The bond lengths and bond angles by PM3 were close to the experimental data, and comparable with the results by the density function theory method.     

Conformational structures and vibrational spectra of isolated pyrimidine nucleosides: Fourier transform infrared matrix isolation study of 2-deoxyuridine

The conformational structures of 2-deoxyuridine (dU) were investigated using Fourier transform infrared (FTIR) matrix isolation spectroscopy. For the first time the FTIR spectra of dU in Ar matrices were obtained in the range 4000-200 cm(-1). The stabilities of conformers were estimated by the methods HF/3-21G (p), HF/6-31G (d,p) and MP2/6-31G (d,p). Ab initio calculations of the infrared spectra were performed by the methods HF/3-21G (p) and HF/6-31G (d,p). The actual occupancy of conformational isomers in matrix samples was determined. It was shown that anti-conformers of dU are dominant. The ribose rings of the main anti-conformers dU _a0, dU _a1 are in the C2'-endo conformation, but the ribose rings of minor anti-conformers dU_a2, dU_a3 have the C3'-endo conformation, stabilized by intramolecular hydrogen bonds O3'H...O5' and O5'H...O3', accordingly. Syn-conformers of dU are stabilized by the intramolecular hydrogen bond O5'H...O2 and the dominant conformation of the ribose ring is C2'-endo.     

Energetics of hydroxybenzoic acids and of the corresponding carboxyphenoxyl radicals. Intramolecular hydrogen bonding in 2-hydroxybenzoic acid

The energetics of the phenolic O-H bond in the three hydroxybenzoic acid isomers and of the intramolecular hydrogen O-H- - -O-C bond in 2-hydroxybenzoic acid, 2-OHBA, were investigated by using a combination of experimental and theoretical methods. The standard molar enthalpies of formation of monoclinic 3- and 4-hydroxybenzoic acids, at 298.15 K, were determined as Delta(f)(3-OHBA, cr) = -593.9 +/- 2.0 kJ x mol(-1) and Delta(f)(4-OHBA, cr) = -597.2 +/- 1.4 kJ x mol(-1), by combustion calorimetry. Calvet drop-sublimation calorimetric measurements on monoclinic samples of 2-, 3-, and 4-OHBA, led to the following enthalpy of sublimation values at 298.15 K: Delta(sub)(2-OHBA) = 94.4 +/- 0.4 kJ x mol(-1), Delta(sub)(3-OHBA) = 118.3 +/- 1.1 kJ x mol(-1), and Delta(sub)(4-OHBA) = 117.0 +/- 0.5 kJ x mol(-1). From the obtained Delta(f)(cr) and Delta(sub) values and the previously reported enthalpy of formation of monoclinic 2-OHBA (-591.7 +/- 1.3 kJ x mol(-1)), it was possible to derive Delta(f)(2-OHBA, g) = -497.3 +/- 1.4 kJ x mol(-1), Delta(f)(3-OHBA, g) = -475.6 +/- 2.3 kJ x mol(-1), and Delta(f)(4-OHBA, cr) = -480.2 +/- 1.5 kJ x mol(-1). These values, together with the enthalpies of isodesmic and isogyric gas-phase reactions predicted by density functional theory (B3PW91/aug-cc-pVDZ, MPW1PW91/aug-cc-pVDZ, and MPW1PW91/aug-cc-pVTZ) and the CBS-QMPW1 methods, were used to derive the enthalpies of formation of the gaseous 2-, 3-, and 4-carboxyphenoxyl radicals as (2-HOOCC(6)H(4)O(*), g) = -322.5 +/- 3.0 kJ.mol(-1) Delta(f)(3-HOOCC(6)H(4)O(*), g) = -310.0 +/- 3.0 kJ x mol(-1), and Delta(f)(4-HOOCC(6)H(4)O(*), g) = -318.2 +/- 3.0 kJ x mol(-1). The O-H bond dissociation enthalpies in 2-OHBA, 3-OHBA, and 4-OHBA were 392.8 +/- 3.3, 383.6 +/- 3.8, and 380.0 +/- 3.4 kJ x mol(-1), respectively. Finally, by using the ortho-para method, it was found that the H- - -O intramolecular hydrogen bond in the 2-carboxyphenoxyl radical is 25.7 kJ x mol(-1), which is ca. 6-9 kJ x mol(-1) above the one estimated in its parent (2-OHBA), viz. 20.2 kJ x mol(-1) (theoretical) or 17.1 +/- 2.1 kJ x mol(-1) (experimental).     

多硝基甲烷Mannich碱稳定性的理论研究

用MNDO SCF-MO方法全优化了系列多硝基甲烷Mannich碱的几何构型, 计算了它们的电子结构。在胺、醛组分相同时, 标题物>N-CH2-Y的特征键CH2-Y的键级随酸组分亲核性的增强而增大。该CH2-Y键级较小是造成Mannich碱在溶液中不稳定的重要原因。C-NO2键的键级在分子中较小, 可能是热或光解等受激分解的引发键, 从电子结构特征上阐明了以硝仿为酸组分的Mannich碱稳定性较差的原因。     

羰基镍簇Ni(CO)n(n=1-4)的结构和Ni-CO键解离性质的密度泛函理论研究

在密度泛函理论框架下, 应用不同泛函计算了配合物Ni(CO)n(n=1~4)的平衡几何构型和振动频率. 考察了泛函和基组重叠误差对预测Ni—CO键解离能的影响. 计算结果表明, 用杂化泛函能得到与实验一致的优化几何构型和较合理的振动频率. 对Ni(CO)n(n=2~4)体系, 用“纯”泛函, 如BP86和BPW91, 可得到与CCSD(T)更符合、 并与实验值接近的解离能. 当解离产物出现单个金属原子或离子(如金属羰基配合物的完全解离)时, BSSE校正项的计算中应保持金属部分的电子结构一致. 只有考虑配体基组和不考虑配体基组两种情况下金属的电子构型与配合物中金属的构型一致时, 才能得到合理的BSSE校正, 从而预测合理的解离能.