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- Microporous Organic Polymers: Design, Synthesis, and Function By J.-X. Jiang and A. I. Cooper - Hydrogen, Methane and Carbon Dioxide Adsorption in Metal-Organic Framework Materials By X. Lin, N. R. Champness, and M. Schröder -Doping of Metal-Organic Frameworks with Functional Guest Molecules and Nanoparticles By F. Schröder and R. A. Fischer -Chiral Metal-Organic Porous Materials: Synthetic Strategies and Applications in Chiral Separation and Catalysis By K. Kim, M. Banerjee, M. Yoon, and S. Das -Controlled Polymerization by Incarceration of Monomers in Nanochannels By T. Uemura and S. Kitagawa -Designing Metal-Organic Frameworks for Catalytic Applications L. Ma and W. Lin -Magnetic and Porous Molecule-Based Materials By N. Roques, V. Mugnaini, and J. Veciana

Chemistry. --- Organic Chemistry. --- Chemistry, Organic. --- Chimie --- Chimie organique --- Organometallic polymers --- Porous materials --- Gases --- Storage --- Separation

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The volumes of this classic series, now referred to simply as "Zechmeister" after its founder, L. Zechmeister, have appeared under the Springer Imprint ever since the series' inauguration in 1938. The volumes contain contributions on various topics related to the origin, distribution, chemistry, synthesis, biochemistry, function or use of various classes of naturally occurring substances ranging from small molecules to biopolymers. Each contribution is written by a recognized authority in his field and provides a comprehensive and up-to-date review of the topic in question. Addressed to biologists, technologists, and chemists alike, the series can be used by the expert as a source of information and literature citations and by the non-expert as a means of orientation in a rapidly developing discipline.

Chemistry. --- Organic Chemistry. --- Chemistry, Organic. --- Chimie --- Chimie organique --- Anticoagulants (Medicine). --- Coumarins. --- Biochemistry --- Chemistry --- Physical Sciences & Mathematics --- Organic compounds. --- Compounds, Organic --- Organic chemicals --- Organic chemistry --- Organic chemistry. --- Carbon compounds

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Sucrose: A Prospering and Sustainable Organic Raw Material,By S. Peters, T. Rose, and M. Moser; Sucrose-Utilizing Transglucosidases for Biocatalysis, By I. André, G. Potocki-Véronèse, S. Morel, P. Monsan, and M. Remaud-Siméon; Difructose Dianhydrides DFAs) and DFA-Enriched Products as Functional Foods, By C. Ortiz Mellet and J. M. García Fernández; Development of Agriculture Left-Overs: Fine Organic Chemicals from Wheat Hemicellulose-Derived Pentoses, By F. Martel, B. Estrine, R. Plantier-Royon, N. Hoffmann, and C. Portella; Cellulose and Derivatives from Wood and Fibers as Renewable Sources of Raw-Materials, By J.A. Figueiredo, M.I. Ismael, C.M.S. Anjo, and A.P. Duarte; Olive Pomace, a Source for Valuable Arabinan-Rich Pectic Polysaccharides,By M. A. Coimbra, S. M. Cardoso, and J. A. Lopes-da-Silva; Oligomannuronates from Seaweeds as Renewable Sources for the Development of Green Surfactants,By T. Benvegnu and J.-F. Sassi; From Natural Polysaccharides to Materials for Catalysis, Adsorption, and Remediation, By F. Quignard, F. Di Renzo, and E. Guibal

Chemistry. --- Organic Chemistry. --- Chemistry, Organic. --- Chimie --- Chimie organique --- Glucides --- Développement durable --- Produits chimiques de la biomasse --- Carbohydrates --- Biomass chemicals --- Biotechnology --- Biotechnologie --- Glucides - Biotechnologie --- Carbohydrates - Congresses --- Biomass chemicals - Congresses --- Biotechnology - Congresses

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Biomolecules in nature exhibit overwhelming one-handedness, often called homochirality, such as L-amino acids and D-sugars. Since the discovery of molecular chirality by Pasteur, the origins of chirality and the process le- ing to enantiopure biomolecules have attracted broad attention from many researchers. Several theories have been proposed for the origin of chirality in organic compounds, for example, left and right-circularly polarized light, sp- taneous absolute asymmetric synthesis, and chiral inorganic crystals such as quartz. However, the enantioenrichments induced by these mechanisms have been very low or even below detection levels. Thus, the process of ampli?cation of enantioenrichment is inevitable to reach enantiopure compounds. In 1953, Frank proposed a mechanism of asymmetric autocatalysis without mentioning any chemical structure. However, it then took over 40 years for us to discover asymmetric autocatalysis with ampli?cation of chirality in 1995. This book illustrates the recent aspects of ampli?cation of chirality by as- metric autocatalysis and by forming helical structures. The ?rst four chapters summarize experimental asymmetric autocatalysis with ampli?cation of en- tiopurity, the mechanism of asymmetric autocatalysis examined by NMR and calculation, the computer simulation models of the reaction mechanism of asymmetric autocatalysis, and the theoretical models of ampli?cation of c- rality. The last chapter deals with the ampli?cation of chirality by the f- mation of helical structures. However, the ampli?cation of enantiopurity in non-autocatalytic asymmetric reaction and the ampli?cation by enantiomer separation involving crystallization or sublimation are beyond the scope of this book.

Chemistry. --- Organic Chemistry. --- Organometallic Chemistry. --- Physical Chemistry. --- Chemistry, Organic. --- Physical organic chemistry --- Chimie --- Chimie organique --- Chimie organique physique --- Circular Dichroism --- Stereoisomerism --- Isomerism --- Spectrum Analysis --- Chemistry Techniques, Analytical --- Organic Chemistry Phenomena --- Investigative Techniques --- Chemical Phenomena --- Phenomena and Processes --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Biochemistry --- Physical & Theoretical Chemistry --- Chemistry --- Physical Sciences & Mathematics --- Autocatalysis. --- Chirality. --- Autocatalytic reaction --- Reaction, Autocatalytic --- Self-catalysis --- Organic chemistry. --- Organometallic chemistry. --- Physical chemistry. --- Stereochemistry --- Symmetry (Physics) --- Enantiomers --- Catalysis --- Chemistry, Physical organic. --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Organic chemistry --- Organometallic chemistry . --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry, Organometallic --- Metallo-organic chemistry --- Stereoisomerism.

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Zeolites are microporous, aluminosilicate minerals commonly used as commercial adsorbents. Zeolite-based catalysts are used by industrial chemical companies in the interconversion of hydrocarbons and the alkylation of aromatic compounds. The current book deals with the characterization of specific properties of Zeolites and calculations for the design of catalysts. Measurements and utilization of solid acidity, shape selectivity, and loading properties, that are three prominent properties of a Zeolite catalyst, are treated in detail. These features concern chemical vapor deposition of silica, shape selectivity, loading properties, solid activity, Brønsted or Lewis character, ammonia temperature programmed desorption, control of the pore-opening size by chemical vapor deposition of silica and XAFS analysis of metals being highly dispersed inside and outside a framework.

Chemistry. --- Physical Chemistry. --- Characterization and Evaluation of Materials. --- Condensed Matter Physics. --- Structural Materials. --- Physical organic chemistry --- Materials. --- Surfaces (Physics). --- Chimie --- Chimie organique physique --- Matériaux --- Surfaces (Physique) --- Catalysis. --- Zeolite catalysts. --- Zeolites. --- Acidität --- Heterogene Katalyse --- Palladium --- Porosität --- Regioselektivität --- Trägerkatalysator --- Zeolith --- Acidität. --- Heterogene Katalyse. --- Palladium. --- Porosität. --- Regioselektivität. --- Trägerkatalysator. --- Zeolith.