Organic Chemistry, Volume 28: Organic Syntheses with Noble Metal Catalysts provides information pertinent to the catalysis by noble metals, which is presented in a form as to be of use to those interested in organic synthesis. This book discusses the mechanistic aspects of reactions. Organized into nine chapters, this volume begins with an overview of catalytic dehydrogenation over platinum metals, which provides a convenient method for synthesis of organic compounds. This text then examines the mechanisms and kinetics of homogeneous hydrogenation. Other chapters consider the oxidation of organic compounds in the presence of noble metal catalysts that may affect a variety of changes, including introduction of alcohol, epoxide, carbonyl, and halogen functions into the molecule. This book discusses as well the differences between osmium tetroxide and ruthenium tetroxide in their reactions with organic compounds. The final chapter deals with noble metal catalysts. This book is a valuable resource for synthetic organic chemists.
Catalytic Hydrogenation over Platinum Metals focuses on catalytic hydrogenation as an effective process in attaining controlled transformations of organic compounds. Composed of contributions of various authors, the book first provides information on catalysts, equipment, and conditions. Catalyst stability and reuse; types of catalyst; platinum metals; and synergism are covered. The text proceeds with discussions on hydrogenation reactors. Topics include atmospheric pressure reactors; low pressure reactors; microreactors; and high pressure reactors. The book also covers hydrogenation of carbon-carbon unsaturation. Catalytic metal; modified catalyst systems; stereochemistry; diacetylenes; and hydrogenolysis are discussed. The text also looks at the hydrogenation of aromatics, nitrogen and carbonyl compounds, and hydrogenolysis. Numerical representations and analysis, diagrams, and reactions of compounds when exposed to different laboratory conditions are considered. The selection is a great source of data for readers interested in studying the process of catalytic hydrogenation.
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