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Das Wissen um funktionelle Gruppen ist der Schlüssel, um die organische Chemie zu verstehen. In der Tradition von Patai Chemistry of Functional Groups behandelt jeder Band sämtliche Aspekte funktioneller Gruppen. Jeder Band bietet eine Vielzahl unterschiedlicher Kapitel, die sich mit theoretischen, analytischen, synthetischen, biologischen, biochemischen und industriellen Gesichtspunkten beschäftigen. Band 1 zum Thema der aluminiumorganischen Verbindungen ergänzt die kürzlich veröffentlichten Bände zu anderen Bereichen der organometallischen Synthese, d. h. zu Organo-Eisen-, Organo-Lithium, Organo-Zink-, Organo-Kupfer- und Organo-Mangan-Verbindungen. Wie bei allen neuen Bänden, werden die Kapitel zuerst online in Patai Chemistry of Functional Groups veröffentlicht. Sobald ein Band online vollständig ist, folgt die Printausgabe. Die Printversion entspricht der von Patai gewohnten Qualität und beinhaltet auch einen umfangreichen Index.
The past 15 years have seen tremendous progress in manganese chemistry, with the low cost of this metal making it an attractive choice as a functional group in organic syntheses. Surveying key compounds and reaction intermediates used in organic syntheses, this is the first volume in the Patai Series to focus on manganese in organic and organometallic chemistry. With contributions by leading experts, the book delivers the usual high quality of the Patai series. It also emphasizes novel applications in organic synthesis as well as technological trends in industrial, biomedical, and materials science.
Copper in organic synthesis has seen a tremendous development over the past ten years. This text represents the most comprehensive survey on the use of Copper and Cuprates in organic synthesis. The first time that the Patai Series touches on Copper compounds, it contains contributions by leading experts, and delivers the quality expected from the Patai Series.
Für das Verständnis der organischen Chemie muss man wissen, worum es sich bei funktionalen Gruppen handelt. Dieses Fachbuch steht ganz in der Tradition der Reihe Patai's Chemistry of Functional Groups. Jeder Band deckt sämtliche Aspekte funktionaler Gruppen ab und behandelt dabei theoretische, analytische, synthetische, biologische Aspekte sowie Belange der Industrie. Hypervalente Halogenverbindungen, insbesondere Jodverbindungen, sind überaus effiziente und selektive Oxidantien für eine Vielzahl funktionaler Gruppen. Die elektrophilen Eigenschaften dieser Reagenzien können auch für die Einführung anderer Funktionalisierungen verwendet werden. Dieser Band ist der erste in der Reihe, die die Eigenschaften und das chemische Verhalten von hypervalentem Jod und Brom, deren Einsatz in der organischen Synthese sowie deren industrielle Anwendung untersucht. Wie bei allen neuen Bänden, werden die Kapitel zunächst online in Patai's Chemistry of Functional Groups veröffentlicht. Wenn ein Band online vervollständigt ist, erfolgt die Herausgabe als Printversion. Die Printfassung entspricht der Qualität, die man von der Patai-Reihe kennt, und bietet auch einen umfassenden Index.
The second edition of Comprehensive Organic Synthesis—winner of the 2015 PROSE Award for Multivolume Reference/Science from the Association of American Publishers—builds upon the highly respected first edition in drawing together the new common themes that underlie the many disparate areas of organic chemistry. These themes support effective and efficient synthetic strategies, thus providing a comprehensive overview of this important discipline. Fully revised and updated, this new set forms an essential reference work for all those seeking information on the solution of synthetic problems, whether they are experienced practitioners or chemists whose major interests lie outside organic synthesis. In addition, synthetic chemists requiring the essential facts in new areas, as well as students completely new to the field, will find Comprehensive Organic Synthesis, Second Edition, Nine Volume Set an invaluable source, providing an authoritative overview of core concepts. Winner of the 2015 PROSE Award for Multivolume Reference/Science from the Association of American Publishers Contains more than170 articles across nine volumes, including detailed analysis of core topics such as bonds, oxidation, and reduction Includes more than10,000 schemes and images Fully revised and updated; important growth areas—including combinatorial chemistry, new technological, industrial, and green chemistry developments—are covered extensively
The first book in the PATAI Series was published in 1964 and the Series will celebrate its 50th Anniversary in 2014. This "Golden Jubilee" is accompanied by the publication of the first volume on the chemistry of organogold. In the history of the PATAI Series there was, so far, no volume dedicated to gold alone. In 1999 we published a volume on The Chemistry of Gold and Silver Compounds. Since then a lot of new chemistry using gold has been developed and it is timely to focus a volume on methods and applications of organogold compounds in organic synthesis, reflecting the enormous progress which has been made in the use of gold compounds as reagents and catalysts. A second area of great importance covered in the book is the use of gold surfaces in the synthesis of peptides, proteins and other natural products. A whole range of applications in the area of biochemistry has resulted from these developments. A third area of interest is the synthesis and engineering of nanostructures, where organogold chemistry has opened the door for a wide range of methods and applications in the field of nanoscience and materials science. As with all new volumes, the chapters are first published online in Patai's Chemistry of Functional Groups. Once a volume is completed online, it is then published in print format. The printed book offers the traditional quality of the Patai Book Series, complete with an extensive index.
The last two decades have seen a renaissance in interest in the chemistry of the main group elements. In particular research on the metals of group 13 (aluminium, gallium, indium and thallium) has led to the synthesis and isolation of some very novel and unusual molecules, with implications for organometallic synthesis, new materials development, and with biological, medical and, environmental relevance. The Group 13 Metals Aluminium, Gallium, Indium and Thallium aims to cover new facts, developments and applications in the context of more general patterns of physical and chemical behaviour. Particular attention is paid to the main growth areas, including the chemistry of lower formal oxidation states, cluster chemistry, the investigation of solid oxides and hydroxides, advances in the formation of III-V and related compounds, the biological significance of Group 13 metal complexes, and the growing importance of the metals and their compounds in the mediation of organic reactions. Chapters cover: general features of the group 13 elements group 13 metals in the +3 oxidation state: simple inorganic compounds formal oxidation state +3: organometallic chemistry formal oxidation state +2: metal-metal bonded vs. mononuclear derivatives group 13 metals in the +1 oxidation state mixed or intermediate valence group 13 metal compounds aluminium and gallium clusters: metalloid clusters and their relation to the bulk phases, to naked clusters, and to nanoscaled materials simple and mixed metal oxides and hydroxides: solids with extended structures of different dimensionalities and porosities coordination and solution chemistry of the metals: biological, medical and, environmental relevance III-V and related semiconductor materials group 13 metal-mediated organic reactions The Group 13 Metals Aluminium, Gallium, Indium and Thallium provides a detailed, wide-ranging, and up-to-date review of the chemistry of this important group of metals. It will find a place on the bookshelves of practitioners, researchers and students working in inorganic, organometallic, and materials chemistry.
Pincer complexes are formed by the binding of a chemical structure to a metal atom with at least one carbon-metal bond. Usually the metal atom has three bonds to a chemical backbone, enclosing the atom like a pincer. The resulting structure protects the metal atom and gives it unique properties.The last decade has witnessed the continuous growth in the development of pincer complexes. These species have passed from being curiosity compounds to chemical chameleons able to perform a wide variety of applications. Their unique metal bound structures provide some of the most active catalysts yet known for organic transformations involving the activation of bonds. The Chemistry of Pincer Compounds details use of pincer compounds including homogeneous catalysis, enantioselective organic transformations, the activation of strong bonds, the biological importance of pincer compounds as potential therapeutic or pharmaceutical agents, dendrimeric and supported materials.* Describes the chemistry and applications of this important class of organometallic and coordination compounds* Covers the areas in which pincer complexes have had an impact* Includes information on more recent and interesting pincer compounds not just those that are well-known