金催化去芳构化反应研究进展

均相金催化在过去十几年经历了飞速的发展,展现出了非常高的催化效率和非常强的官能团兼容性.另一方面,催化去芳构化反应能够直接高效地将芳香化合物转化为高度官能团化的具有丰富三维立体结构的分子.因此,金催化去芳构化反应将会为天然产物和复杂分子的合成提供新颖直接高效的路径.本文总结了近几年金催化去芳构化反应的例子,主要可分为金催化的重排反应和炔烃/联烯的氢-官能团化反应两方面,同时还介绍了这两类反应的特点与可能的反应机理.     

光电联合催化的研究进展

近年来,温和、绿色的光化学和电化学反应在有机合成中得到了广泛的应用.为了进一步提升光、电反应潜力,有机化学家们致力于在单一反应体系中使用这两种策略来促进有机转化.一系列光电联合催化策略被开发出来,目前主要的光电联合催化策略是电化学介导的光氧化还原催化.此外,光激发辅助、电化学主导氧化还原的光电联合催化策略也逐渐展现出其...     

组装在贵金属基底上的金纳米粒子对CO的电化学催化氧化

研究了组装在Au, Pt电极表面的金纳米粒子对CO的电化学催化氧化行为, 首次在实验上观察到较大粒径金纳米粒子(粒径＞10 nm)对CO的电催化氧化活性. 考察了金粒子表面金氧化物对粒子电催化活性的影响, 发现表面金氧化物的形成是金纳米粒子对CO具有电催化氧化活性的前提. 对于相同粒径的金纳米粒子, 随着粒子表面金氧化物量的增加,催化活性增大.     

用人工神经网络预测催化精馏塔开工过程的研究

催化精馏是使化学反应过程和精馏分离过程结合在一起,是伴有化学反应的新型特殊精馏过程.“反应精馏”概念自20年代提出以来,从30年代到60年代初,研究都是对特定体系的工艺探索;70年代后,研究扩展到非均相催化反应体系,出现了非均相催化精馏过程,成为了反应精馏的一个重要分支;     

稀土催化材料研究与应用

稀土具有特殊的物理和化学性质,在化学反应过程中表现出良好的催化效果,在多种领域得到了广泛应用.目前,稀土催化材料在石油化工催化、机动车尾气催化、燃料电池催化、催化燃烧、制氢催化及其他环保催化的相关材料方面发挥着重要的作用.尽管稀土催化应用广泛,但是稀土对于各个催化过程的作用鲜见系统总结,因此,本文主要对近年来上述领域关...     

络合吸附催化不可逆循环叠式方波伏安法

研究了络合吸附催化不可逆体系受前行化学反应控制（Ｋ＜＜１）和不受前行化学反应控制（Ｋ＞＞１）两种情况下的循环叠式方波伏安法的电流理论，并进行了实验验证，讨论了电流特性，获得区分Ｋ＜＜１和Ｋ＞＞１的判据。对于上述体系的测定，循环叠式方波伏安法的灵敏度比普通差式采样方波伏安法高一个数理级以上。     

催化不对称光诱导自由基反应

自由基反应的立体选择性调控一直是不对称催化领域的挑战性难题.近年来,光化学过程特别是可见光化学过程在有机合成中越来越受到研究人员的重视,光诱导自由基化学也再次进入人们的视野.相对传统的自由基化学,光诱导自由基化学反应条件温和,易于调控,为实现高效催化不对称自由基反应带来了新的契机,展示了蓬勃的发展潜力.本文根据光诱导产生自由基种类的不同,简要介绍最近该方向的研究进展.     

官能团化N,C双齿N-杂环卡宾配合物研究进展

综述了官能团化N,C双齿N-杂环卡宾金属配合物研究的最新进展,着重讨论了这些配合物对各种化学反应的催化性能.     

磁场对合成乙酸乙酯的影响

关于磁场对某些物质物理性质的影响和化学反应影响的研究,近期越见活跃。磁场对化学反应的影响主要是研究一些小分子的     

金纳米棒@碳中空胶囊的制备及催化性能

以聚吡咯为碳壳前驱体制备了金纳米棒镶嵌于碳壳内的中空胶囊.先合成羧基修饰的聚苯乙烯微球和十六烷基三甲基溴化铵稳定的金纳米棒; 再利用二者之间的静电力将金纳米棒组装在聚苯乙烯微球表面; 最后, 通过氧化聚合将聚吡咯壳包覆在聚苯乙烯@金纳米棒复合物的表面.在氮气保护下经高温煅烧, 聚吡咯壳被碳化为碳壳的同时聚苯乙烯微球分解, 从而制得金纳米棒@碳中空胶囊.在煅烧过程中, 由于碳壳的保护, 金纳米棒很好地保持了“棒状”形貌.通过调节吡咯单体的浓度, 可以控制聚吡咯壳和碳壳的厚度.金纳米棒@碳中空胶囊在以NaBH₄为还原剂还原亚甲基蓝的反应中表现出良好的催化活性.     

Chiral Gold(III) Complexes: Synthesis,Structure, and Potential Applications

Since the beginning of the 2000’s, homogeneous gold catalysis has emerged as a powerful tool to promote the cyclization of unsaturated substrates with excellent regioselectivity allowing the synthesis of elaborated organic scaffolds. An important goal to achieve in gold catalysis is the possibility to induce enantioselective transformations by the assistance of chiral complexes. Unfortunately, the linear geometry of coordination for gold usually encountered in complexes at the +1 oxidation states renders this goal very challenging. In consequence, the interest toward the synthesis of chiral gold(III) complexes is steadily growing. Indeed, the square planar geometry of the gold(III) cation appears more suitable to promote chiral induction. Beside catalysis, gold(III) complexes have also shown promising potential in the field of pharmacology. Herein, syntheses and applications of well-defined gold(III) complexes reported over the last fifteen years are summarized.     

The golden gate to catalysis

The use of gold in homogeneous catalysis is a relatively new field of transition metal catalysis, but has already witnessed spectacular achievements. By virtue of their unique ability to activate carbon-carbon double and triple bonds as soft, carbophilic Lewis acids, gold salts are highly efficient catalysts for the formation of C-C, C-O, C-N, and C-S bonds. Moreover, they are capable of activating C-H bonds of aromatic and other substrates, opening unprecedented pathways for their functionalisation. By using chiral allenes as substrates, gold catalysts can even be applied in stereoselective target-oriented synthesis.     

Gold in total synthesis: alkynes as carbonyl surrogates

Fields of gold: Recent developments in the field of gold catalysis, using an alkyne as a carbonyl equivalent is becoming an important chemical transformation, thus providing flexibility in synthetic planning of complex and sensitive natural products. Understanding of the reaction and new catalyst designs are providing new conditions that are amenable for late-stage synthetic intermediates.     

Recent Advances in Gold‐Catalyzed Intermolecular Aryl C−H Functionalization

The direct and selective functionalization of C?H bonds offers a powerful opportunity for greener and shorter routes to valuable chemicals. While still in its infancy, research exploiting the unique features of gold catalysis for the functionalization of aryl C?H bonds has demonstrated great potential for facile regioselective decoration of (hetero)arenes. Particularly within the last five years, a more general strategy for utilizing oxidative gold catalysis has emanated including an improved understanding of the underlying mechanistic pathways. To encourage and facilitate further research in intermolecular C?H functionalization of arenes with homogeneous gold catalysis, this Minireview critically presents the transformations and mechanistic data available within this field.     

Recent advances in gold-complex and chiral organocatalyst cooperative catalysis for asymmetric alkyne functionalization

Homogeneous gold catalysis has demonstrated the preponderant capability of realizing a broad range of synthetically versatile alkyne functionalization over the last two decades. Though catalytic asymmetric alkyne transformation has focused on the principle of using gold catalysts either associated with chiral phosphine ligand or combined with chiral counterion, a variety of breakthroughs have been reported with the application of gold-complex and chiral organocatalyst cooperative catalysis strategy, which could enable the challenging transformations that cannot be realized by mono-catalysis with excellent stereoselectivity. This review will cover two general protocols in this field, including relay catalysis and synergistic catalysis, with emphasis on the detailed cooperative catalysts models to illustrate the roles of the two catalysts and highlight the potential synthetic opportunities offered by asymmetric cooperative catalysis.     

金纳米颗粒制备及应用研究进展

金纳米颗粒是近年研究的一种热门材料。介绍了金纳米颗粒主要的制备方法,包括化学还原法,两相法,晶种生长法以及模板法,并总结了金纳米粒子在生物医学、传感器、催化剂、电化学等领域的应用进展。     

Polyoxometalates containing late transition and noble metal atoms

This review describes the state of the art in the field of polyoxometalates containing noble metal atoms (ruthenium, rhodium, palladium, silver, osmium, iridium, platinum and gold). The structures of the various species are listed together with their applications (mainly in catalysis).     

Gold--an introductory perspective

We introduce the collection of reviews in this thematic issue of Chemical Society Reviews that demonstrate and discuss the current cutting edge research in the field of gold chemistry and materials science as it stands today. We also highlight achievements in the fields of gold catalysis, gold nanoparticles and the preparative, structural and theoretical chemistry of gold, and discuss the remaining challenges and opportunities. Our aim is to inspire further discovery in these new and deeply fascinating fields.     

Recent topics in dual hydrogen bonding catalysis

Dual hydrogen bonding donors have received much attention in the area of organocatalysis after the discovery of chiral thiourea derivatives that act as asymmetric catalysts. This digest focuses on recent advances in this area categorized in the following three topics: 1) enhanced hydrogen bonding donor catalysis; new scaffolds with improved reactivity and selectivity are introduced and compared with established catalysts; 2) anion binding catalysis; recent advances in terms of catalysts and their applications is addressed; 3) multiple catalysis involving dual hydrogen bonding catalysts; a relatively new field of dual hydrogen bonding donor catalysis combined with other catalysis is introduced.     

Recent advances in the isolation and reactivity of organogold complexes

Homogeneous gold catalysis has been one of the most active research fields in organic chemistry for more than a decade, and it has been also among the most efficient methodologies for forming carbon-carbon or carbon-heteroatom bonds. Recently, a number of organogold intermediates were isolated from stoichiometric reactions, which helps to better understand the mechanisms. Meanwhile, the reactivity of organogold compounds has been attracting the attention of organic chemists in the field. This tutorial review collects the most recent advances in the isolation and reactivity of organogold compounds that may help to open new directions in homogenous gold catalysis.