溶剂热法合成Fe-CeO2与N-Fe-CeO2纳米粉体及其光催化性能

采用溶剂热法合成了不同Fe掺杂含量的Fe-CeO₂纳米粉体及不同氮源掺杂的N-10% Fe-CeO₂（n_Fe/（n_Fe+n_Ce）=10%）纳米粉体。利用TEM、XRD、XPS、Raman和UV-Vis等技术对其微观结构与形貌进行了表征,并通过降解亚甲基蓝溶液对其光催化性能进行了研究。结果表明,Fe掺杂可以提高CeO₂的光催化性能,以10% Fe-CeO₂催化效率最高,对亚甲基蓝的降解率从纯CeO₂的67%提高到95%。而N的掺杂可调节10% Fe-CeO₂催化性能。以浓氨水为氮源的N-10% Fe-CeO₂（NH₃·H₂O-N-10% Fe-CeO₂）的降解率可进一步提高到97%,并且具有较好的稳定性,经5次循环使用,对亚甲基蓝的光催化降解率仍高达89%。CeO₂催化活性的提高主要由于掺杂Fe和N改变了CeO₂的晶体结构与能带结构,促进了光生电子与空穴的产生与催化反应。     

以不同的环内酰胺为手性辅助剂的烯酰基环内酰胺的立体选择环氧化反应

Asymmetric epoxidation of N-enoylsultams （1, 3-15） incorporating a variety of chiral sultams as the chiral induction elements with UHP/TFAA has been studied. Both diastereomeric isomers of epoxides （2, 16-28） were obtained in high yield and moderate to high optical purity.     

以阴离子手性模板合成螺旋形貌的介孔分子筛

本文首次以具有手性的药物分子布洛芬(Ibuprfen, 2-(4-异丁基苯基)丙酸)为模板剂, 以3-氨丙基-3-乙氧基硅烷为共模板剂, 合成了具有新颖螺旋形貌的介孔分子筛, 并用XRD, FTIR, TEM 和SEM对其结构进行了表征.     

Toxicity （-lgEC50） Measurement of the Fluorobenzene Derivants against Vibrio Qinghaiensis （Q67） and Their 2D,3D-QSAR Study

Toxicities (-lgEC50) of 16 fluorobenzene derivants against vibrio qinghaiensis (Q67) were measured systematically,and their quantum chemistry parameters were calculated at the B3LYP/6-311G** level. Based on the experimental toxicity data and quantum chemistry parameters,2D-QSAR model was proposed,which was validated by variance inflation factors (VIF),t-value and cross-validation method. At the mean time,comparative molecular force field (CoMFA) based on molecular simulation was used to investigate the toxicity of fluorobenzene derivants. Furthermore,the intoxicating mechanism of fluorobenzene derivants was discussed. To our interest,2D-QSAR and CoMFA models exhibit good prediction ability,with which the toxicity of similar compounds can be predicted. Finally,toxicities (-lgEC50) of 12 fluorobenzene derivants against vibrio qinghaiensis (Q67) were predicted with these models.     

Tonkinensines A and B, two novel alkaloids from Sophora tonkinensis

Tonkinensines A (1) and B (2), two novel cytisine-type alkaloids that feature the skeleton with a linkage to pterocarpan, were isolated from the roots of Sophora tonkinensis. Their structures and absolute configurations were elucidated by spectroscopic methods, especially X-ray crystal diffraction and CD spectral analysis. The proposed biosynthetic pathway was also discussed. Both 1 and 2 were tested in HeLa and MDA-MB-231 tumor cell lines, and compound 2 showed moderate cytotoxic activity.     

Crystal facet engineering of semiconductor photocatalysts: motivations, advances and unique properties

Crystal facet engineering of semiconductors has become an important strategy for fine-tuning the physicochemical properties and thus optimizing the reactivity and selectivity of photocatalysts. In this review, we present the basic strategies for crystal facet engineering of photocatalysts and describe the recent advances in synthesizing faceted photocatalysts, in particular TiO(2) crystals. The unique properties of faceted photocatalysts are discussed in relation to anisotropic corrosion, interaction dependence of adsorbates, photocatalytic selectivity, photo-reduction and oxidation sites, and photocatalytic reaction order. Ideas for future research on crystal facet engineering for improving the performance of photocatalysts are also proposed.     

纳米钒酸铋的微波快速合成及光催化性能研究

采用微波辅助加热法以NaVO₃溶液和Bi(NO₃)₃·5H₂O的硝酸溶液为反应物,在10～40 min内合成了纳米钒酸铋粉末。利用XRD、FTIR、TEM、UV-Vis等手段研究了反应时间对产物结构及形貌的影响。经测定反应10 min时,得到纯的四方相BiVO₄,随着反应时间的延长,逐渐出现单斜相的衍射峰,当反应40 min时,获得纯的单斜相BiVO₄。同时XRD和IR结果证明了相转变的过程。TEM分析表明不同的反应时间条件下样品呈现不同的形貌。不同反应时间下获得样品的光催化性能的结果表明,微波反应时间对BiVO₄结构的转变及光催化性能的改变起到了重要的作用。     

两步电泳沉积制备TiO2光阳极用于高效染料敏化太阳能电池

采用不同沉积电压制备TiO₂光阳极,研究电压对薄膜沉积速率、厚度和形貌的影响。通过台阶仪、光学照片、扫描电子显微镜（SEM）、电化学交流阻抗谱、开路电压衰减曲线对光阳极和电池进行系统表征,并测试了染料敏化太阳能电池器件的电流密度-电压（J-V）曲线,计算其光电转换效率。结果表明,提高沉积电压时,光阳极薄膜的沉积速率加快,膜厚也增加,但是电压过高时,薄膜会有裂缝和覆盖不全的问题,这会对电池的效率造成负面影响。综合考虑低沉积电压条件下薄膜均匀无裂缝和高沉积电压条件下沉积速率快的优点,采用先30 V电压、后60 V电压的电泳沉积方式来制备光阳极,结果呈现协同效果,既降低了制备时间又得到高质量的薄膜,在无其他修饰的情况下,电池的光电转换效率可以达到7.29%。     

The Studies of Microwave Effects on the Chemical Reactions

Microwave heating involves direct absorption of energy by functional groups that bear ionic conductivity or a dipole rotational-effect, and this energy is then released into the surrounding solution. This absorption of energy causes the functional groups involved to have higher reactivity to other surrounding reactants than when they are simply incubated with the reactants at the same temperature. In other word the enhanced rate of the reaction can be due to the reactant stirred by the molecular dipole rotation and molecules themselves acting as a stirring bar. In contrast to conventional heating, the salient feature of “dipole rotation” constitutes one efficient form of “molecular agitation” or “molecular stirring” many aspects of which can be explore in chemical reactions. We will discuss some of the useful applications of this “molecular agitation” by means of microwave irradiation. Using this unique technology, we have developed: 1) a method to control the cleavage sites of peptide bonds, especially those bonds connected to aspartic acid residues inside the native peptides and proteins, 2) a method to increase coupling efficiency in solid-phase peptide synthesis using a common microwave oven, 3) a novel procedure that increases the rate of alcalase-catalyzed reactions using microwave irradiation in peptide-bond formation with proline as a nucleophile and selective benzoylation of a pyranoside derivative, 4) a procedure to solubilize and hydrolyze retrograded starch, 5) a novel procedure to enhance the rate of saponification in a serum sample for very long chain fatty acid analysis.     

New Triterpenoid and Anti-Inflammatory Constituents of Eriobotrya deflexa f. deflexa

Chemistry of Natural Compounds - A new triterpenoid, methyl 2α-(4-hydroxybenzoyl)oxy-3β-hydroxy-urs-12-en-28-oate (1), has been isolated from the leaves of Eriobotrya deflexa f. deflexa,...