N'-5-四唑基-N-芳甲酰基硫脲的合成及其生物活性研究（I）

为寻找新的高活性农药，根据生物等排原理，设计合成了10种未见文献报道的 N'-5-(1H-1,2,3,4-四唑基）-N-芳甲酰基硫脲类化合物。它们的结构经IR，~1H NMR和元素分析确证。初步的生物活性测定结果表明，部分化合物具有优良的除草 活性或植物生长调节活性。     

新手性化合物－龙脑基氨基醇的合成

以天然d-樟脑的衍生物为原料,合成了两种龙脑基氨基醇,其方法简单,化学收率高。对中间体及目标化合物结构及物理性质作了表征。     

噻吩基和呋喃基四硫富瓦烯的合成及电化学性质

提供了一种合成噻吩基和呋喃基四硫富有瓦烯（ＴＴＦ）的方法，并用其合成了３种未见文献报道的噻吩基ＴＴＦ（Ⅶａ，Ⅷｂ，Ⅶｃ）和２种呋喃基ＴＴＦ（Ⅶｄ１，Ⅶｄ２）研究这些化合物的循环伏安行为及有关电化学性质，制得了一种Ⅶｂ与ＴＣＮＱ反应生成的电荷转移络合物，讨论了噻吩基ＴＴＦ和呋喃基ＴＴＦ在产物构型和电化学性质方面的差别。     

1-芳基-1，4二氢-3芳酰肼基甲酰基-6甲基-4-哒嗪酮的合成及对黄瓜子叶生根作用的构效关系研究

合成了一系列的1-芳基-1，4-二氢-3-芳酰肼基甲酰基-各甲基斗哒嗪酮类化合 物，并用离体黄瓜子叶生根法测试其生物活性，生测结果表明，所有的化合物均显 示出一定的生物活性，并且芳环上的取代基对活性有重要影响．采用化合物的物理 化学参数及化合物促进黄瓜子叶生根的活性，进行了结构与活性定量关系研究，建 立了较好的结构与活性的相关式，化合物的亲脂性和取代基的电性对化合物的生物 活性具有重要的影响．研究结果对3-芳酰肼基甲酰基斗哒嗪酮类化合物的改性或新 类似物的合成具有指导意义．     

水溶性meso-四咪唑基卟啉及其金属配合物的合成

通过2-和4(或5)-咪唑基甲醛分别与吡咯缩合,合成了 meso-四(2-咪唑基)卟啉和 meso-四[4(或5)-咪唑基]卟啉,并考察了它们的水溶性性质。最后用这两种四咪唑基卟啉制备了10种金属卟啉配合物。     

[ (苯基二甲硅基) 甲基]二环己基锡二硫代磷酸酯的合成

本文合成了[ (苯基二甲硅基) 甲基]二环己基锡二硫代磷酸酯. IR, NMR (^1H, ^1^3C, ^1^1^9Sn)和MS数据表明,这类化合物具有四配位的特征. 生物测定实验表明这些化合物具有高度的杀螨活性.     

N-(取代苯氨基硫代甲酰基)邻苯二甲酰胺酸的合成

本文用四种硫脲衍生物和一种脲衍生物同邻苯二甲酸杆进行单酰化反应, 筛选了最适宜反应条件, 避免了环状副产物, 合成了N-(取代萃氨基硫代甲酰基)邻苯二甲酸。     

几种新的四苯(基)苯基有机硅化合物的研究

本工作以双乙烯基四甲基二硅氧烷、乙烯基甲基二氯硅烷、乙烯基七甲基环四硅氧烷分别与四苯基环戊二烯酮通过Diels-Alder反应合成了相应的四种四苯(基)苯基有机硅化合物(Ⅰ-Ⅳ)。并由化合物Ⅲ又制成了三种化合物Ⅴ一Ⅶ。对这些新化合物的组成、结构作了相应的分析、测试和鉴定。还对有些Diels-Alder反应做了改进,从封管反应改为常压反应后,效果更佳。     

羧酸三环己基锡盐的合成和结构分析

报导了三环己基氢氧化锡同羧酸的反应, 考察了影响产物收率的因素并合成了23个新的羧酸三环己基锡类化合物, 通过红外光谱和质谱等确定了这类化合物的结构, 并证明锡的配合物价为4.     

结构受阻的取代的苯乙烯基吡嗪衍生物作为荧光探针的研究

本工作合成了两种旋转受阻取代的苯乙烯基吡嗪衍生物。详细研究了环境温度、极性和粘度对其光物理及发光行为的影响。结果表明两化合物在基态时可能存在着"平面构象与扭曲构象"间的平衡, 环境的温度、极性和粘度对于化合物存在的构象有很大影响。扭曲构象为较好的发光构象。分子受激后, 平面构象可经旋转松弛到扭曲构象。两化合物的荧光量子产率在室温条件下基本不随溶剂极性变化而变, 仅与溶剂粘度有关, 利用该性质可建议其作为一种有效的粘度荧光探针。     

活性炭复合滤嘴吸附性能的热脱附研究

采用热脱附与气相色谱-质谱联用技术对活性炭滤嘴中活性炭和乙酸纤维脱附的组分进行了定性分析,并用峰面积归一化法测定了所含挥发性成分的质量分数,活性炭脱附组分共鉴定出芳香族化合物、醛酮类、烟碱、酸类、酯类等62种挥发性化合物.结果表明方法具有较好的重现性;为评价活性炭滤嘴的吸附性能提供了一种参考方法.     

A convenient one-step preparation of diaminonitrile compounds

A new method for preparation of diaminonitrile compounds is reported.In this method primary aliphatic diamine compounds were condensed with two equivalents of benzaldehyde and sodium cyanide in presence of an aqueous solution of sodium hydrogensulfite under mild conditions.This method provides an efficient,convenient and practical method for the syntheses of diaminonitrile compounds and the products are easily isolated.The prepared new compounds were characterized by elemental analysis,IR,NMR spectroscop...     

固相萃取-气相色谱-串联质谱法检测水中18种酚类化合物

当前水中酚类化合物种类不清、危害不明，多种酚类化合物的同时检测方法不成熟，因此建立水中多种酚类化合物同时检测的方法具有重要现实意义。该研究建立了固相萃取结合气相色谱-串联质谱同时检测水中18种酚类化合物的分析方法。实验选择超纯水为空白样品，采用固相萃取技术富集、提取水中的酚类化合物，同时对水样初始pH值、洗脱液的种类、洗脱液的用量等条件进行优化，从而确定出最优的前处理方法，最后利用气相色谱-串联质谱法对不同种类的酚类化合物同时进行定量检测。实验结果表明，在初始水样pH值为3.0、不衍生等条件下，使用10 mL乙酸乙酯洗脱，控制洗脱速度为1 mL/min，经固相柱富集净化，氮吹浓缩后，用气相色谱-质谱仪（EI源）测定，选择离子模式监测，外标法定量。结果表明，以3倍信噪比结合浓度外推法确定方法检出限，为0.04~0.6 μg/L；18种酚类化合物的加标回收率为51.7%~117.3%，相对标准偏差为3.1%~7.4%。应用建立的方法分别检测了河流湖泊水、生活用水、生产用水3大类6种不同的水质。检测结果表明，河流湖泊水中酚类化合物所含种类最多，含量最高。研究建立的方法不需要衍生，简化了前处理方法，操作简单，且准确性高，重复性好，可同时检测复杂水体中多种酚类化合物，能显著提高酚类化合物的分析速率。该方法的建立对我国水中酚类化合物残留水平的控制、检测标准的制定和管理措施的采取，都具有重要的理论和现实意义。     

固相萃取-气相色谱-高分辨质谱法测定巢湖水中半挥发性有机化合物

描述了巢湖水中半挥发性有机化合物的提取、测定过程和初步结果。湖水中半挥发性有机化合物的提取采用XAD-2和XAD-4混合树脂富集，用气相色谱-高分辨质谱法测定了所萃取的有机化合物，并给出相应的分子式和结构式。春季湖水中检测到14种有机化合物。     

2D-QSAR Studies on Triazolone Compounds Containing Benzenesulfonic Amide

The geometry structures of 6 triazolone compounds containing benzenesulfonic amide were fully optimized with DFT (Density Functional Theory) method at the B3LYP/6-31G level, and the structural and electronic parameters of the compounds were calculated. The hydrophobic and topological parameters of the title compounds were calculated by HyperChem software. The mono-and bi-parametric models between the parameters and biological activity of the compounds were analyzed by Multiple Linear Regression method based on Hansch-Fujita model. The results show that the activities of the title compounds were increased with higher hydrophobic property logP and molecular volume V, lower molecular energy ETOTAL and elec-tronegative of benzene ring Qph.     

宝明页岩柴油碱性氮化物的梯度富集及GC-MS分析

利用溶剂萃取和柱色谱等技术浓缩分离新疆宝明页岩油柴油馏分中的碱性氮化物。以宝明页岩柴油为原料,经糠醛溶剂精制,初步得到富集碱性氮化物的抽出油。以抽出油为深度富集碱性氮化物的原料,采用柱色谱等分离方法,从抽出油中分离得到碱性氮化物。利用傅立叶变换红外光谱仪(FT-IR)和气相色谱-质谱联用仪(GC-MS)分别对富集的碱性氮化物进行官能团检测和定性、定量分析。结果表明:新疆宝明页岩油柴油馏分中的碱性氮化物经溶剂精制和柱色谱等分离方法梯度富集后,碱性氮化物的质量分数由抽出油的12.08%提高到最终产物的69.48%,并在富集分离的产物中鉴定出60种碱性氮化物,其中主要为苯胺类、喹啉类和吡啶类化合物,各占25.85%,23.56%和16.52%。     

The mbth oxidative determination of olefinic compounds

Oxidation of olefinic compounds with a permanganate-periodate procedure followed by analysis with 3-methyl-2-benzothiazoline hydrazone gave a sensitive method for the assay of a wide variety of these types of compounds. The method was especially sensitive for compounds with a 1-ene group A large number of olefins and water-soluble compounds, such as unsaturated acids, alcohols, and amines were found to be capable of analysis by the method. The procedure was applied to the analysis of aliphatic and acid fractions of airborne and other particulates.     

Rapid analysis of the essential oil components of dried Zanthoxylum bungeanum Maxim by Fe2O3‐magnetic‐microsphere‐assisted microwave distillation and simultaneous headspace single‐drop microextraction followed by GC–MS

In this work, microwave distillation assisted by Fe₂O₃ magnetic microspheres (FMMS) and headspace single‐drop microextraction were combined, and developed for determination of essential oil compounds in dried Zanthoxylum bungeanum Maxim (ZBM). The FMMS were used as microwave absorption solid medium for dry distillation of dried ZBM. Using the proposed method, isolation, extraction, and concentration of essential oil compounds can be carried out in a single step. The experimental parameters including extraction solvent, solvent volume, microwave power, irradiation time, and the amount of added FMMS, were studied. The optimal analytical conditions were: 2.0 μL decane as the extraction solvent, microwave power of 300 W, irradiation time of 2 min, and the addition of 0.1 g FMMS to ZBM. The method precision was from 4 to 10%. A total of 52 compounds were identified by the proposed method. The conventional steam distillation method was also used for the analysis of essential oil in dried ZBM and only 31 compounds were identified by steam distillation method. It was found that the proposed method is a simple, rapid, reliable, and solvent‐free technique for the determination of volatile compounds in Chinese herbs.     

俄罗斯直馏柴油中硫化物的分离富集与结构鉴定

采用选择性氧化剂和还原剂对俄罗斯直馏柴油中的硫醚类硫化物和噻吩类硫化物分别进行分离和富集,得到两者的浓缩液。运用质谱技术对分离出的硫化物结构进行鉴定。结果表明:氧化还原法是分离俄罗斯直馏柴油中硫化物的有效方法;硫醚类硫化物浓缩液中鉴定有烷基四氢噻吩和烷基四氢噻喃类化合物,四氢噻喃类硫化合物的烷基取代碳数在C4~C13范围;噻吩类硫化物浓缩液中有烷基侧链长度为C0~C9之间的苯并噻吩,烷基侧链长度为C0~C3之间的二苯并噻吩。     

Preliminary Screening and Analysis of Biomembrane Permeable Compounds in Herbal Medicines: Hollow Fiber Liposome Microscreening Combined with HPLC

An advantageous method based on hollow fiber liposome microscreening (HFLMS) combined with high-performance liquid chromatography (HPLC) has been developed and used in preliminary screening and analysis of biomembrane permeable compounds from herbal medicines (HMs). In the method, a liposome hollow fiber was prepared as a screening tool; permeable compounds that could specifically bind to liposomes were screened from herbal extract to liposome in the pores and lumen of hollow fiber, then permeable compounds were dissociated from liposomes and analyzed by HPLC. The chromatographic separation was applied with a Zorbax Eclipse XDB-C18 column by a gradient elution using acetonitrile, methanol, and phosphoric acid aqueous solution as the mobile phases. In the study, influencing factors of the screened target compounds were investigated and optimized. Under optimum conditions, the surface properties of liposome hollow fibers were characterized, the nonspecific binding between the active center of hollow fiber and the bioactive components were investigated, the repeatability of this method was tested. And eight permeable compounds of flavonoids and anthraquinones from HMs were preliminarily screened and analyzed by HFLMS-HPLC. The results demonstrated that new method is a simple, fast, effective, and reliable method for preliminary screening and analyzing biomembrane permeable ingredients in HMs, and it can be used in screening other permeable compounds in HMs.