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81.
82.
合成了丙二硫醚桥联2个乙酰丙酮的双β-二酮分子1,3-二(3-硫醚基-2,4-戊二酮基)丙烷(L1),以此为配体与镍(Ⅱ)作用得到配合物,通过元素分析和摩尔电导分析方法确定了镍(Ⅱ)配合物的化学组成,比较分析了配位前后的游离配体与配合物的红外及紫外吸收光谱,采用紫外光谱滴定法对配体L1与Ni(Ⅱ)离子在溶液中的配位行为进行了模拟研究,并进行金属离子液膜传输实验考察了L1对Ni(Ⅱ)的液膜传输性能。结果显示,L1通过4个O原子与Ni(Ⅱ)配位成键形成配合物,且对Ni(Ⅱ)具有良好的液膜传输性。 相似文献
83.
采用浸渍法制备了负载型高分散纳米Ru催化剂,利用X射线衍射、X射线光电子能谱、透射电子显微镜、N2吸附-脱附实验对催化剂进行了表征,结果显示,Ru以高分散金属态存在,其平均粒径在5nm左右。考察了不同酸碱介质、催化剂与底物物质的量的比、反应温度、H2压力和反应时间对对苯二酚收率的影响。结果表明,以盐酸为反应介质,以5%Ru/AC为催化剂,nRu/AC∶n对苯醌=1∶100,反应温度30℃,H2压力3.0MPa,反应时间30min,对苯二酚的收率可达97.5%。 相似文献
84.
以钌(Ⅱ)多吡啶配合物[Ru(bipy)2DAFND](Cl O4)2(Ru-DAFND,bipy=2,2'-联吡啶,DAFND=4,5-二氮杂芴-9-对硝基苯腙)为指示剂,采用锁相放大技术构建了基于荧光猝灭原理的光纤DNA传感器,研究了传感器的性能。以p H 7.1的Tris缓冲溶液为介质,在2.6×10-8~5.4×10-6mol/L范围,ct DNA浓度与传感器光学敏感膜的相对滞后相移(Δφ)有较好的线性关系,检出限为8.4×10-9mol/L,响应时间为70 s。通过研究溶液p H值和干扰物对传感器性能的影响,表明该传感系统具有较好的重复性和稳定性。 相似文献
85.
建立了用邻菲啰啉-Fe(Ⅱ)分光光度法测定头孢唑啉钠的方法 .头孢唑啉钠在0.10mol·L-1 NaOH溶液中,100℃水浴加热降解为含巯基的化合物.巯基化合物把Fe3+还原为Fe2+.加入邻菲啰啉显色,通过测定生成的橘红色配位化合物的吸光度间接测定头孢唑啉钠的含量.头孢唑啉钠浓度在0.02~40mg·L-1范围内呈现良好线性关系,线性回归方程A=0.043c(mg·L-1)-0.001,相关系数R=0.998 8,表观摩尔吸光系数ε=2.05×104 L·(mol·cm)-1,相对标准偏差RSD=1.27%,检测限(3σ/k)0.065mg·L-1.在此基础上,测定了市售头孢唑啉钠粉针剂的含量,回收率在99.17%~101.2%之间,结果令人满意. 相似文献
86.
Dr. James R. Frost Prof. Dr. Stefan M. Huber Dr. Stefan Breitenlechner M. Sc. Christoph Bannwarth Prof. Dr. Thorsten Bach 《Angewandte Chemie (International ed. in English)》2015,54(2):691-695
Spirocyclic oxindoles undergo an enantioselective oxygenation reaction (nine examples; e.r. up to 97:3) upon catalysis by a chiral ruthenium porphyrin complex (1 mol %). The catalyst exhibits a lactam ring, which is responsible for substrate association through hydrogen bonds, and an active ruthenium center, which is in a defined spatial relationship to the oxygenation substrate. DFT calculations illustrate the perfect alignment of the active site with the reactive C? H bond and suggest—in line with the kinetic isotope effect—an oxygen rebound mechanism for the reaction. 相似文献
87.
Dr. Michael Fuchs Prof. Alois Fürstner 《Angewandte Chemie (International ed. in English)》2015,54(13):3978-3982
The important biochemical probe molecule brefeldin A ( 1 ) has served as an inspirational target in the past, but none of the many routes has actually delivered more than just a few milligrams of product, where documented. The approach described herein is clearly more efficient; it hinges upon the first implementation of ruthenium‐catalyzed trans‐hydrogenation in natural products total synthesis. Because this unorthodox reaction is selective for the triple bond and does not touch the transannular alkene or the lactone site of the cycloalkyne, it outperforms the classical Birch‐type reduction that could not be applied at such a late stage. Other key steps en route to 1 comprise an iron‐catalyzed reductive formation of a non‐terminal alkyne, an asymmetric propiolate carbonyl addition mediated by a bulky amino alcohol, and a macrocyclization by ring‐closing alkyne metathesis catalyzed by a molybdenum alkylidyne. 相似文献
88.
Hypervalent Iodine Reagents Enable Chemoselective Deboronative/Decarboxylative Alkenylation by Photoredox Catalysis 下载免费PDF全文
Hanchu Huang Kunfang Jia Prof. Dr. Yiyun Chen 《Angewandte Chemie (International ed. in English)》2015,54(6):1881-1884
Chemoselective C(sp3)? C(sp2) coupling reactions under mild reaction conditions are useful for synthesizing alkyl‐substituted alkenes having sensitive functional groups. Reported here is a visible‐light‐induced chemoselective alkenylation through a deboronation/decarboxylation sequence under neutral aqueous reaction conditions at room temperature. This reaction represents the first hypervalent‐iodine‐enabled radical decarboxylative alkenylation reaction, and a novel benziodoxole‐vinyl carboxylic acid reaction intermediate was isolated. This C(sp3)? C(sp2) coupling reaction leads to aryl‐and acyl‐substituted alkenes containing various sensitive functional groups. The excellent chemoselectivity, stable reactants, and neutral aqueous reaction conditions of the reaction suggest future biomolecule applications. 相似文献
89.
Lewis Acid Promoted Ruthenium(II)‐Catalyzed Etherifications by Selective Hydrogenation of Carboxylic Acids/Esters 下载免费PDF全文
Dr. Yuehui Li Dr. Christoph Topf Dr. Xinjiang Cui Dr. Kathrin Junge Prof. Dr. Matthias Beller 《Angewandte Chemie (International ed. in English)》2015,54(17):5196-5200
Ethers are of fundamental importance in organic chemistry and they are an integral part of valuable flavors, fragrances, and numerous bioactive compounds. In general, the reduction of esters constitutes the most straightforward preparation of ethers. Unfortunately, this transformation requires large amounts of metal hydrides. Presented herein is a bifunctional catalyst system, consisting of Ru/phosphine complex and aluminum triflate, which allows selective synthesis of ethers by hydrogenation of esters or carboxylic acids. Different lactones were reduced in good yields to the desired products. Even challenging aromatic and aliphatic esters were reduced to the desired products. Notably, the in situ formed catalyst can be reused several times without any significant loss of activity. 相似文献
90.
A Ruthenium(II)–Copper(II) Dyad for the Photocatalytic Oxygenation of Organic Substrates Mediated by Dioxygen Activation 下载免费PDF全文
Dr. Wissam Iali Dr. Pierre‐Henri Lanoe Dr. Stéphane Torelli Dr. Damien Jouvenot Prof. Frédérique Loiseau Colette Lebrun Dr. Olivier Hamelin Dr. Stéphane Ménage 《Angewandte Chemie (International ed. in English)》2015,54(29):8415-8419
Dioxygen activation by copper complexes is a valuable method to achieve oxidation reactions for sustainable chemistry. The development of a catalytic system requires regeneration of the CuI active redox state from CuII. This is usually achieved using extra reducers that can compete with the CuII(O2) oxidizing species, causing a loss of efficiency. An alternative would consist of using a photosensitizer to control the reduction process. Association of a RuII photosensitizing subunit with a CuII pre‐catalytic moiety assembled within a unique entity is shown to fulfill these requirements. In presence of a sacrificial electron donor and light, electron transfer occurs from the RuII center to CuII. In presence of dioxygen, this dyad proved to be efficient for sulfide, phosphine, and alkene catalytic oxygenation. Mechanistic investigations gave evidence about a predominant 3O2 activation pathway by the CuI moiety. 相似文献