An indispensable reference for any practicing synthetic organic ormedicinal chemist, this book continues the tradition ofGreene’s as comprehensive in the overall scope of coverage,providing the most relevant and useful examples to illustrate eachmethodology. • Presents valuable material, on the application ofprotective groups in organic chemistry, that is not easily found bycasual searching • Helps chemists to plan, investigate, and carry outorganic syntheses in an efficient manner • Adds over 2800 new references to update since thepublication of the last edition • Reviews of the prior edition: "An essential bible forthe library or personal bookshelf of chemists performing complexsynthesis." (CHOICE, May 2007) "...the most up-to-date compilationavailable...should be an integral part of all institutionallibraries...it is also highly recommended thatindividuals...maintain their own copy..." (Journal of MedicinalChemistry, March 8, 2007) "...continues to be a comprehensive guideto the techniques for the formation and cleavage of protectivegroups." (Journal of the American Chemical Society, January 31,2007)
This volume deals with binary nitrogen-hydrogen compounds having two, three, or more nitrogen atoms (with the exception of hydrazine) and with compounds composed of nitrogen, hydrogen, and noble gases. The important species containing two nitrogen atoms, N2H, N2H+, N2H2, and N2H3 are described in the first part of this volume. Next, chains and cycles consisting of three nitrogen atoms are covered. Among them hydrogen azide or hydrozoic acid, HN3, is the most extensively studied nitrogen-hydrogen compound described in this volume. With increasing number of nitrogen atoms, the thermochmical stability declines. There is, however, a considerable amount of information on molecules with up to nine linked nitrogen atoms. Several of these binary nitrogen-hydrogen compounds could only be isolated in the form of organic derivatives. In that case, data available for the organic derivatives were included if they were characteristic for the particular unsubstituted N-H parent compound.
Im vorliegenden Band 3/2008 berichtet Herr Eckert uber die Ergebnisse aus Untersuchungen zur Partikel- und Stickoxidminimierung bei Dieselmotoren durch Wassereinbringung. Das primare Ziel ist dabei die innermotorische Reduzierung der thermischen Stickoxidbildung. Es sind unterschiedliche Methoden der wassereinbringung in den dieselmotorischen Verbrennungsprozess moglich; beispielsweise die Einspritzung von Wasser in das Ansaugsystem, eine direkte Einspritzung von Wasser in den Brennraum sowie die Wassereinbringung mit Diesel- Wasser Emulsionen. Diese Massnahmen sind unter anderem bei dieselmotoren, die zumindest teilweise mit Schwerol betrieben werden, besonders interessant, da dort klassische Methoden zur Schadstoffreduktion, wie z.B. Abgasruckfuhrung oder Abgasnachbehandlung, nur mit erheblichem Aufwand eingesetzt werden konnen.
RNA is a chemical found in the nucleus and cytoplasm of cells. RNA plays an important role in protein synthesis and other chemical activities of the cell. The structure of RNA is similar to that of DNA, although RNA is single stranded whereas DNA has a characteristic "double helix". Genetic information is stored by DNA in the nucleus of cells, and RNA carries that information to other parts of the cell where it is converted into protein. Three types of RNA are; mRNA (messenger RNA, which contains the specific sequence of nucleotides necessary to dictate amino acid sequence in proteins), tRNA (transfer RNA, which serves as the "adapter" to position the appropriate amino acid next to a growing polypeptide chain during protein synthesis), and rRNA (ribosomal RNA, which is the RNA component of ribosomes). This book presents state-of-the-research from throughout the world.
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