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The series Topics in Current Chemistry Collections presents critical reviews from the journal Topics in Current Chemistry organized in topical volumes. The scope of coverage is all areas of chemical science including the interfaces with related disciplines such as biology, medicine and materials science. The goal of each thematic volume is to give the non-specialist reader, whether in academia or industry, a comprehensive insight into an area where new research is emerging which is of interest to a larger scientific audience. Each review within the volume critically surveys one aspect of that topic and places it within the context of the volume as a whole. The most significant developments of the last 5 to 10 years are presented using selected examples to illustrate the principles discussed. The coverage is not intended to be an exhaustive summary of the field or include large quantities of data, but should rather be conceptual, concentrating on the methodological thinking that will allow the non-specialist reader to understand the information presented. Contributions also offer an outlook on potential future developments in the field.
"Iron catalyzed C-C cross coupling reactions have drawn significant interest as more versatile and cost effective alternatives to traditional precious metal catalysts, however limited mechanistic understanding of these reactions has been reported hindering rational optimization of these systems. The use of electron paramagnetic resonance, magnetic circular dichroism, Ms̲sbauer spectroscopy, and density functional theory, in addition to GC, NMR, and X-ray crystallography, are applied in the examination of structural and mechanistic aspects of in situ iron cross-coupling chemistry with a focus on elucidating how different nucleophiles, reaction additives and protocols affect reactivity. In Chapter 2 and 3, initial studies presented investigate iron-bisphosphine catalyzed cross-coupling of aryl nucleophiles with alkyl halides. These studies describe the iron species formed in situ and provide insight into the active species of catalysis as a function of nucleophile in both Kumada and Suzuki-Miyaura cross-coupling reactions. In Chapter 4, further studies investigate simple iron salt catalysts with methyl and ethyl Grignards for direct determination of iron species present in solution and their reactivity with electrophile. Additional studies further probe the effect of N-methylpyrrolidone as a co-solvent. In conclusion, it is shown in these studies the novel utility of these direct spectroscopic probes in monitoring in situ iron speciation and reactivity with electrophile. Furthermore, through monitoring of reactions we can also define why key aspects of the catalytic protocol are necessary for high yields and selectivities providing insight to guide rational optimization of these systems."--Pages v-vi.
Following on from its recognition in the 2010 Nobel Prize for Chemistry, contributors from across the globe present the latest cross-coupling trends in both academia and industry.
This three volume book is the follow-up handbook to the bestselling volume "Metal-Catalyzed Cross-Coupling Reactions", the definitive reference in the field. In line with the enormous developments in this area, this is not a new edition, but rather a new book in three volumes with over 50% more content. This new content includes C-H activation, shifting the focus away from typical cross-coupling reactions, while those topics and chapters found in de Meijere/Diederich's book have been updated and expanded. With its highly experienced editor team and the list of authors reading like an international Who's-Who in the field, this work will be of great interest to every synthetic chemist working in academia and industry.
Carbon-carbon bond forming reactions are arguably the most important processes in chemistry, as they represent key steps in the building of complex molecules from simple precursors. Among these reactions, metal-catalyzed cross-coupling reactions are extensively employed in a wide range of areas of preparative organic chemistry, ranging from the synthesis of complex natural products, to supramolecular chemistry, and materials science. In this work, a dozen internationally renowned experts and leaders in the field bring the reader up to date by documenting and critically analyzing current developments and uses of metal-catalyzed cross-coupling reactions. A particularly attractive and useful feature, that enhances the practical value of this monograph, is the inclusion of key synthetic protocols, in experimental format, chosen for broad utility and application. This practice-oriented book can offer the practitioner short cuts to ensure they remain up-to-date with the latest developments.
This volume presents recent progress on 3d base metal catalyzed C-C cross coupling reactions. The contributions provide detailed discussions on the use of cheap metal catalysts such as Cr, Mn, Fe, Co, Ni, Cu, and Zn to construct Csp2-Csp2, Csp2-Csp3 and Csp3-Csp3 bonds with a variety of substrates. These non-noble metal catalyst have many advantages such as being inexpensive, having low toxicity and are environmentally benign. Therefore the use of cheap metal catalysts in organic synthesis has gained much attention in efforts to develop more sustainable synthetic green chemistry. Each chapter is written by international experts in the field and is a great resource for students, researchers and chemists working in industry to gain an overview on the latest developments.
"This thesis describes the use of multiple transition metal catalysts for the selective formation of carbon-carbon bonds. While the majority of cross coupling reactions rely on one transition-metal catalyst which reacts with a stoichiometric metal reagent, the combination of two metal catalysts in reactions has the potential to significantly increase the expediency towards synthetic targets, eliminating the need for stoichiometric metal reagents and improving functional group compatibility. There are many precedents for the combination of catalysts in organic methodology, however relatively few examples of multimetallic catalyzed reactions exist, and even fewer examples exist where the mechanism between the two catalytic metals is understood. The aim of the projects communicated in this thesis is two-fold: (1) To design new and efficient ways to form useful carbon-carbon bonds (Csp2-Csp3, Csp2-Csp2, and Csp2-Csp2) from readily available starting materials and (2) to provide insight into how two transition metal catalysts can cooperate in a reaction to achieve high selectivity and yield. Chapter 1 reviews the importance of carbon-carbon bond formation and introduces the main methods of cross coupling, including the concept of multimetallic catalysis. Previous examples of dual metal catalysis are summarized in the literature and the advantages and challenges of using two metals in a catalytic system are discussed. Chapter 2 presents a nickel and cobalt catalyzed strategy for the formation of Csp2-Csp3 bonds. The first attempted cross electrophile couplings to form diarylmethanes from benzyl halides and aryl iodides is reported in moderate selectivity, followed by the strategic optimization of the co-catalytic system which enables higher yields and selectivity through the coupling of benzyl sulfonate esters with aryl halides. In this reaction, nickel reacts selectively with aryl halides through an oxidative addition step, while cobalt phthalocyanine generates radicals through an Sn2 reaction with benzyl sulfonate esters, followed by homolysis. The extension of this method to coupling benzyl phosphonate esters and primary and secondary benzyl chlorides is also presented. Chapter 3 reports the quest for and ultimate discovery of a multimetallic catalyzed Csp2-Csp2 coupling. Beginning with stoichiometric transmetalation studies for the coupling of aryl C-H bonds with aryl C-X bonds, the reaction of various metal aryl complexes based on iridium, ruthenium, copper, nickel, and palladium are described. While these reactions were ineffective in generating unsymmetrical biaryls, the catalytic combination of a nickel and palladium catalyst to couple aryl bromides with aryl trifluoromethanesulfonate esters for the design of a cross Ullman reaction was a success. This reaction provided access to a variety of unsymmetrical biaryls maintaining an equimolar catalyst loading of the two metals, and showed promise for later development of the formation of useful unsymmetrical bipyridines and dienes. The scope of this remarkable reaction, the origin of selectivity, and the enhancement in rate and selectivity by a KF additive is presented. Additionally, the optimization strategy towards coupling chlorobenzene and electron-rich aryl chlorides is communicated. Finally, this chapter includes the first attempted multimetallic catalyzed multicomponent reactions with the nickel and palladium as well as nickel and cobalt catalyzed systems, including carbonylation, and the difunctionalization of olefins and alkynes."--Pages xii-xiii.
The first handbook on this emerging field provides a comprehensive overview of transition metal-catalyzed coupling reactions in the presence of an oxidant. Following an introduction to the general concept and mechanism of this reaction class, the team of authors presents chapters on C-C cross-coupling reactions using organometallic partners, C-Heteroatom bond forming reactions via oxidative couplings, and C-H couplings via C-H activation. The text also covers such groundbreaking topics as recent achievements in the fields of C-C and C-X bond formation reactions as well as C-H activation involving oxidative couplings. With its novel and concise approach towards important building blocks in organic chemistry and its focus on synthetic applications, this handbook is of great interest to all synthetic chemists in academia and industry alike.
In 1972, a very powerful catalytic cycle for carbon-carbon bond formation was 2 first discovered by the coupling reaction of Grignard reagents at the sp -carbon. Over the past 30 years, the protocol has been substantially improved and expanded to other coupling reactions of Li,B,N,O,Al,Si,P,S,Cu,Mn,Zn,In,Sn, and Hg compounds. These reactions provided an indispensable and simple methodology for preparative organic chemists. Due to the simplicity and rel- bility in the carbon-carbon, carbon-heteroatom, and carbon-metalloid bo- formations,as well as high efficiency of the catalytic process,the reactions have been widely employed by organic chemists in various fields. Application of the protocol ranges from various syntheses of complex natural products to the preparation of biologically relevant molecules including drugs, and of sup- molecules, and to functional materials. The reactions on solid surfaces allow robot synthesis and combinatorial synthesis. Now, many organic chemists do not hesitate to use transition metal complexes for the transformation of org- ic molecules. Indeed, innumerable organic syntheses have been realized by the catalyzed reactions of transition metal complexes that are not achievable by t- ditional synthetic methods. Among these, the metal-catalyzed cross-coupling reactions have undoubtedly contributed greatly to the development of such a new area of “metal-catalyzed organic syntheses”. An excellent monograph for the cross-coupling reactions and other met- catalyzed C-C bond-forming reactions recently appeared in Metal-catalyzed Cross-coupling Reactions (Wiley-VCH,1998).