酰胺多胺配体Cu(Ⅱ)配合物的稳定性和酸分解动力学

合成了酰胺多胺配体(L),测定了5,10,15和25℃时其Cu(Ⅱ)配合物的稳定常数,用标准摩尔焓变ΔHm0和标准摩尔熵变ΔSm0解释了温度对稳定性的影响,并利用停流技术(Stopped-flow)研究了CuL配合物在0.04～2.3mol/L(I=2.34mol/LNaCl)盐酸溶液中的酸分解动力学.提出了反应机理,并求得了速控步骤的活化能Ea,标准摩尔活化熵Δ≠Sm0和标准摩尔活化焓Δ≠Hm0     

N2O多层膜局域结构的多重散射簇理论研究

利用多重散射簇(multiple scattering cluster, MSC)方法计算了N2O多层膜中氮原子的1s芯态近边X射线吸收精细结构(near edge X-ray absorption fine structure, NEXAFS)谱,首次给出N2O多层膜局域结构的模型. MSC研究显示多层膜中N2O分子以短程有序的分层错位链结构排列,并求得链中相邻分子间距为0.233 nm和相邻分子层之间距离为0.240～0.245 nm.用自洽场离散变分(discrete variation, DV)Xα方法计算的N2O多层膜电子结构支持了MSC的计算结果;阐明了NEXAFS谱中弱结构的物理起源.对N2O多层膜中分子之间相互作用的分析显示N2O多层膜的结构具有分子自组装的特性.     

C24团簇结构与稳定性的理论研究

采用量子化学HF, B3LYP和MP2方法,选用6-31G^*, 6-311G^*, cc-pVDZ和cc-pVTZ基组,对C₂₄团簇的6种异构体进行了优化,并对它们的几何构型、振动频率、核独立化学位移(NICS)和稳定性进行了讨论,比较C₂₄团簇各种异构体的稳定性.研究表明:在6-311G^*和cc-pVDZ水平上,B3LYP方法给出的稳定性大小顺序分别为c＞f＞b＞e＞a＞d和c＞b＞f＞a＞e＞d, MP2方法给出的稳定性大小顺序为b＞c＞a＞e＞f＞d.     

氯化钆与L-酪氨酸和甘氨酸三元固态配合物的热化学及热分解动力学研究

合成表征了氯化钆与L 酪氨酸和甘氨酸形成的三元固态配合物Gd(Tyr) (Gly) 3 Cl3 ·3H2 O .用具有恒温环境的溶解 -反应热量计 ,测定了配位反应GdCl3 ·6H2 O (s) +Tyr (s) +3Gly (s) =Gd(Tyr) (Gly) 3 Cl3 ·3H2 O (s) +3H2 O (l)在 2 98.15K时的反应焓为 ( 9.45 1± 0 .468)kJ·mol-1 .计算得配合物Gd(Tyr) (Gly) 3 Cl3 ·3H2 O (s)在 2 98.15K时的标准摩尔生成焓为ΔfH m =-( 4 2 69.7± 2 .3 )kJ·mol-1 .并用热分析手段对配合物进行了非等温热分解动力学研究 ,推断配合物第二步热分解反应机理为二级化学反应 ,其动力学方程为 :dα/dT =(A/β)exp( -E/RT) ( 1-α) 2 ,求得分解反应的表观活化能为E =2 15 .17kJ·mol-1 ,指前因子为 10 1 8.71 s-1 .     

Preparation and Catalytic Property of MoOx with Meso-porosity

A partially reduced molybdenum oxide (MoOx) with meso-porosity was prepared for the first time and its catalytic performance in n-heptane isomerization carried out in a fixed bed flow reactor has been studied. And the evolvement of MoOx formation has been characterized by X-ray diffraction and catalytic performance in n-heptane isomerization. The MoOx catalyst obtained from H2 reduction for 12 h, possessing a maximum pore volume at diameter ca. 4.1 nm, exhibited high activity in n-heptane isomerization. The composition of this catalyst is of the predominant MoOx phases, MoO2 phase and trace amount of metal Mo phase.     

The Preparation of Perovskite Nano Powder by Sol-gel from DTPA and the Mechanism of Thermal Decomposition

Dy0.8Sr0.2FeO3 nano powder, a synthetic oxide, is made by sol-gel method from metal nitrate and diethylenetriaminepentaaeetic acid (DTPA), and the processing parameters are optimized.The process of the preparation, thermal decomposition and the property of the powder are studied by TG-DTA, IR, TEM, and XRD. The diameter of the average grain is about 70 nm. This new technique can be used in the preparation and the studying of ha‘no materials in the complex oxide system.     

Synthesis and Crystal Structure of 2-Amino-1, 1-diferrocenylethanol

2-Aminoalcohols are useful intermediates in organic chemistry, for example, they serve for the synthesis of various heterocycles1, chelate complexes2, and for the ring expansion of cycloalkanones3. 2-Aminoalcohols containing ferrocene as bidentate ligand may be converted into multinuclear compounds. Several methods for the preparation of 2-aminoalcohols have been developed including reduction of the trimethylsilyl cyanohydrins4 or β-nitromethyl alcohols5 and treatment of the epoxides with a…     

A New Furostanol Saponin from the Water-extract of Dioscorea nipponica Mak., the Raw Material of the Traditional Chinese Herbal Medicine Wei Ao Xin

26-O-β-D-Glucopyranosyl-furost-5(6),20(22)-dien-3β,26-diol 1, a new furostanol saponin, was isolated from the water-extract of Dioscorea nipponica Mak., the raw material of a traditional Chinese herbal medicine Wei Ao Xin. The structure of 1 was determined on the basis of its spectral data especially by NMR spectroscopy. The result provides the first example of naturally occurring furostanol saponins with a single saccharide chain at the C-26 position.     

电沉积非晶态Ni-W-B/ZrO_2复合镀层及其结构与性能

在含有二氧化锆的Ni-W-B电解液中,电沉积获得Ni-W-B/ZrO2复合镀层.用差示扫描量热分析(DSC)、X射线衍射(XRD)、扫描电子显微镜(SEM)和电化学技术较系统地研究了Ni-W-B/ZrO2复合镀层的电沉积、热处理过程,以及镀层的结构、表面形貌、显微硬度和耐腐蚀性能.结果表明,复合镀层的质量组成为Ni47.5%、W40.9%、B0.9%和ZrO210.7%.DSC和XRD结果清楚说明,二氧化锆对基质Ni-W-B镀层的结构有明显影响,使得复合镀层的非晶态结构特征更加明显.复合镀层比Ni-W-B合金有更高的显微硬度,呈现团粒状结构,晶块之间不存在裂纹但晶界清晰可辨;二氧化锆粒子分散于Ni-W-B基质镀层中.400℃、1h热处理后,Ni-W-B基质镀层中W向镀层表面偏析,镀层呈现固溶体晶态结构特征,表面形貌特征基本不变,复合镀层的显微硬度进一步提高,抗腐蚀性能增强,但镀层表层中的二氧化锆粒子大量脱落.     

Crystal Structures and Characterizations of Bis（1-benzoyl-methyl-benzotriazole-N^3）dichoro Metal（Ⅱ） Complex： [MCl2（C6H4N3CH2COPh）2] [M=Zn（Ⅱ），Co（Ⅱ）]

The structures of [MCl₂(C₆H₄B₃CH₂COPh)₂] [M=Zn(II) (1), Co(II) (2)] have been determined by X‐ray crystallography. They were characterized by elemental analysis, IR spectrum, electronic spectrum and thermogravimetric‐differential thermal analysis. They all crystallize in the triclinic system, space pup Pi, with lattice parameters a=0.9449(2) nm, b=1.1291(2) nm, c=1.3637(3) nm, α=111.70(3)°, β= 94.33(3)°, y=90.97(3), Z=2 for compound 1; a=0.9437(2) nm, b= 1.1277(2) nm, c= 1.3650(3) nm, a=111.76(3)°, β=94.50(3)°, y=90.80(3)°, Z=2 for compound 2. The metal ions are all coordinated by two C1^?‐ anions and two nitrogen atoms of 1‐benzoylmethyl‐bentriazole ligands. forming the distorted tetrahedral geometry. The Zn—Cl and Zn—N bond lengths are 0.2209(2), 0.2210(2) nm and 0.2059(4), 0.2067(4) nm. respectively. The CO‐Cl 3 and Co–N bond lengths are 0.2215(2). 0.2222(2) nm and 0.2028(5), 0.2045(5) nm. respectively. The thermogravimetric (TG) data indicate that they are nearly similar in TG curve, and there are not structural transitions in the two compounds. They all have a high thd stability. But, there is little difference in DTG (differential thermogravimetric) curves of those two compounds. Elemental analysis, electronic and IR spectra are in agreement with the structural data.