Revised and expanded for the second edition, this text details the principal concepts and developments in wood science, chemistry and technology. It includes new chapters on the chemical synthesis of cellulose and its technology, preservation of wood resources and the conservation of waterlogged wood.

This volume represents the Highest Impact Factor of all journals ranked by ISI within Polymer Science. It contains short and concise reports on physics and chemistry of polymers, each written by the world renowned experts. The information remains valid and useful after five or ten years. The electronic version is available free of charge for standing order customers at: springer.com/series/12/

Corinna Reisinger has developed a new organocatalytic asymmetric epoxidation of cyclic and acyclic , -unsaturated ketones. In this thesis, Corinna documents her methodology, using primary amine salts as catalysts, and hydrogen peroxide as an inexpensive and environmentally benign oxidant. She describes the unprecedented and powerful catalytic asymmetric hydro peroxi dation of , -enones, a process which produces optically active five-membered cyclic peroxyhemiketals in a single operation. She also proves the versatility and synthetic value of the cyclic peroxyhemiketals by converting them into highly enantioenriched acyclic and cyclic aldol products. Currently, these cyclic aldol products are inaccessible by any other synthetic means. Furthermore, cyclic peroxyhemiketals are precursors to optically active 1,2-dioxolanes which are of biological relevance. This work is a breakthrough in the field of asymmetric epoxidation chemistry and outlines the most efficient method in the literature for generating highly enantioselective cyclic epoxyketones known to date.

This book introduces the most recent innovations in natural polymer applications in the food, construction, electronics, biomedical, pharmaceutical, and engineering industries. The authors provide perspectives from their respective range of industries covering classification, extraction, modification, and application of natural polymers from various sources in nature. They discuss the techniques used in analysis of natural polymers in various systems incorporating natural polymers as well as their intrinsic properties.

Filled with practical applications and research, Biodegradation of Nitroaromatic Compounds and Explosives presents an international perspective on environmental contamination from explosives. It covers biodegradation strategies for DNT and a wide variety of other nitroaromatic compounds of environmental significance and makes the information accessible to practicing environmental and chemical engineers. Biodegradation of Nitroaromatic Compounds and Explosives gives you a synthesis of ongoing research and an appreciation of the remarkable range of biochemical strategies available for the transformation of nitroaromatic compounds. It provides a realistic assessment of the current and potential field applications of the various strategies.

Respectably old radical chemistry which plays a rna jor role in life-processes, both desired (breathing, ...) and non-desired (in- flammatory diseases, ageing, ...) has been gaining new youth in the past decade. Modern spectroscopy and other physical methods, recent advances in computational methods as well as impressive and mechanistically well-understood syntheses have led to a number of spectacular deve- lopments in the field of radical chemistry. The impact of these achi- evements will reach far beyond the field of organic chemistry, for example into biology and medicine. New facts and concepts in this rapidly expanding field deserved discussion among a number of leading experts present at the Workshop both for the information and constructive criticism. This happened during a particular brainstorming session and some of the impressions and reflections exchanged are recorded in the Epilogue. Indeed the topic chosen seems to be quintessential for the whole radical chemistry understanding and exploiting (single and multiple) substituent effects on radicals. We had the honour to organise this Workshop because some years ago, in collaboration with L. Stella, we became involved in radical stabi- lising effects when both a donor and an acceptor (captor) groups are present on a C-radical. This leads to an enhanced stabilisation which we called the captodative effect and we have endeavoured the first extensi ve investigation of this effect on carbon centered radicals.

"Compiles nearly 400 fully assigned NMR spectra of approximately 300 polymers and polymer additives, representing all major clases of materials: polyolefins, styrenics, acrylates, methacrylates, vinyl polymers, elastomers, polyethers, polyesters, polymides, silicones, cellulosics, polyurethanes, plasticizers, and antioxidants."

A complete restructuring and updating of the classic 1982 Handbook of Chemical Property Estimation Methods (commonly known as "Lyman's Handbook"), the Handbook of Property Estimation Methods for Chemicals: Environmental and Health Sciences reviews and recommends practical methods for estimating environmentally important properties of organic chemicals. One of the most eagerly anticipated revisions in scientific publishing, the new Handbook includes both a foreword and a chapter by Dr. Lyman.
Written for convenient and frequent use, each chapter integrates recent developments while retaining the elements that made the first version a classic. As a reference tool, the New Edition is indispensable. It comprehensively reviews recent developments in chemical property estimation methods and focuses on the properties most critical to environmental fate assessment.

This hands-on reference tool provides the most up-to-date information needed to synthesize molecules by solid-phase synthesis (SPS)-employing polymeric support (resins), anchoring linkages (handles), coupling reagents (activators), and protection schemes. The volume presents new strategies for creating a wide variety of compounds invaluable for drug discovery in coming years. Thoroughly analyzes peptides, DNA, carbohydrates, conjugates of biomolecules, and small molecules. Written by 35 internationally recognized authorities, Solid-Phase Synthesis provides experimental procedures and a literature review for peptides, DNA, PNA, carbohydrates, peptidomimetics, and small molecule assembly describes the preparation of solid supports and handles (linkers) as well as their appropriate incorporation into a synthetic strategy discusses methods for the construction of more complex peptides: cyclic (lactam and disulfide), glyco-, phospho-, sulfo- and nucleopeptides explains the protocols for the preparation of side-chain and N-alpha protecting groups for amino acids surveys the various coupling reagents and methods for peptide chain elongation considers convergent peptide synthesis (fragment condensations) examines engineering designs for automation details techniques for the purification and analysis of peptides and combination libraries and more Containing over 2400 references and more than 300 tables, drawings, and equations, Solid-Phase Synthesis is an eminently practical and quick-reference guide for organic, combinatorial, and medicinal chemists and biochemists; pharmacists, pharmacologists, and pharmaceutical researchers; molecular and cell biologists; enzymologists; immunologists; neurobiologists; and graduate and medical school students in these disciplines.

This book offers an explanation of the specific ways that biocatalysis outperforms chemical catalysis by: utilizing ambient temperature and atmospheric pressure to minimize problems of isomerization, racemization, and epimerization; employing microbial cells and enzymes that can be immobilized and reused over many cycles; and overexpressing enzymes for greater economy and efficiency.

Environmental problems have become increasingly complex. The procedures for investigating these problems cross the traditional boundaries of organic and analytical chemistry, microbiology and biology. Organic Chemicals: An Environmental Perspective brings together the basic issues of chemical analysis, distribution, persistence, and ecotoxicology.
The author illustrates each point with specific examples and presents a mechanistic approach to microbial reactions. Extensive cross referencing between chapters provides cohesion and complete coverage of issues tangential to each topic. The new edition has been extensively revised, and contains a new appendix, a new chapter, plus further revised information throughout the book. In fact, it is a completely new book.
A major difficulty in environmental science is that much of the background is widely scattered in the specialized chemical, microbiological, and biological literature. The coverage of all these areas in a single volume, the coherence supplied by the cross references, and the extensive references to the original literature makes Organic Chemicals: An Environmental Perspective a unique resource.

Volume three deals specifically with the role of monomers and resins in radiation curing. The nature of the backbone of ologomers leads to the ultimate physical or chemical properties of the UV-cured material. This chapter also covers aspects of the chemistry of these compounds in relation to their end uses.

Most organic reactions have long been carried out in organic solvents without concern for their real necessity, reaction efficiency, and pollution problems. Very recently, we have found that most organic reactions can be carried out in the absence of a solvent, namely, in the solid state. In many cases, the solid-state reaction proceeds more easily and efficiently, and even more selectively than solution reaction. This shows that molecules move easily and selectively in the solid state. This finding changed the classical idea which suggests "molecules do not move and reactions do not occur in the solid state," and opened up a new research field for the study molecular dynamics in the solid state. The organic solid state reactions have many possibilities to be developed. For example, enantioselective reactions can easily be accomplished by carrying out the reaction in an inclusion complex crystal with an optically active host compound.

Catalytic reactions also proceed in the solid state. Moreover, the solid-state reactions are more economical and ecologically sound. In the future, pollution-free synthetic procedures in the solid state will become increasingly important, not only in chemical industries but also in university laboratories.

Transition Metal Catalyzed Carbonylation Reactions is a comprehensive monograph focusing on carbon monoxide usage. This book provides students and researchers in organic synthesis with a detailed discussion of carbonylation from the basics through to applications. The authors have structured the book around the types of reactions, based on the different nucleophiles involved. Scientists working in carbonylation or with carbon monoxide, as well as teachers of organic synthesis can use this book to become familiar with this important area of organic chemistry.

Recent Advances in Organometallic Chemistry: Synthetic, Mechanistic and Medicinal Perspective highlights recent advancements in the field of organometallic chemistry. Containing essential information for researchers and advanced-level students, especially those working in chemical synthesis, the book describes the role of organometallic compounds in different combinations in organic synthesis and pharmaceuticals as well as discussing spectral, magnetic and sensing features of the compounds. Including the role of computational investigations towards the mechanistic study of biomimic complexes in catalytic transformation reactions, the book provides a large number of examples along with their leading applications in other fields. Each chapter covers basic strategies, which are illustrated along with examples of the latest advancements in the field and in-depth explanations.

This is the first book to comprehensively address the recent developments in both the experimental and theoretical aspects of quasi-one-dimensional halogen-bridged mono- (MX) and binuclear metal (MMX) chain complexes of Pt, Pd and Ni. These complexes have one-dimensional electronic structures, which cause the various physical properties as well as electronic structures. In most MX-chain complexes, the Pt and Pd units are in M(II)-M(IV) mixed valence or charge density wave (CDW) states due to electron-phonon interactions, and Ni compounds are in Ni(III) averaged valence or Mott-Hubbard states due to the on-site Coulomb repulsion. More recently, Pd(III) Mott-Hubbard (MH) states have been realized in the ground state by using the chemical pressure. Pt and Pd chain complexes undergo photo-induced phase transitions from CDW to MH or metal states, and Ni chain complexes undergo photo-induced phase transitions from MH to metal states. Ni chain complexes with strong electron correlations show tremendous third-order optical nonlinearity and nonlinear electrical conductivities. They can be explained theoretically by using the extended Peierls-Hubbard model. For MMX-chain complexes, averaged valence, CDW, charge polarization, and alternating charge polarization states have been realized by using chemical modification and external stimuli, such as temperature, photo-irradiation, pressure, and water vapor. All of the electronic structures and phase transitions can be explained theoretically.

Following the first two volumes "Dendrimers" (TCC vol. 197) and "Dendrimers II" (TCC vol. 210), the third volume dealing with this topic is now appearing in print (the "tetralogy" on dendrimers will soon be completed with the fourth volume). The present volume comprises a collection of up-to-date reviews written by renowned pioneers of research in the dendrimer field, three of whom lectured at the 1. International Dendrimer Symposium (IDS-1 1999) in Frankfurt. A focus of this volume is the variety of material properties of soft and shape-persistent dendrimers. As its predecessors did, this volume breaks through the frontiers to neighboring disciplines and, in an interdisciplinary approach, addresses topics such as polydisperse, hyperbranched macromolecules (dendritic polymers), the analysis of shape and density by small-angle scattering techniques, finely dispersed metals (dendrimers as catalysts), and nanotechnology close to potential applications.

The Chemistry of Heterocyclic Compounds, since its inception, has been recognized as a cornerstone of heterocyclic chemistry. Each volume attempts to discuss all aspects - properties, synthesis, reactions, physiological and industrial significance - of a specific ring system. To keep the series up-to-date, supplementary volumes covering the recent literature on each individual ring system have been published. Many ring systems (such as pyridines and oxazoles) are treated in distinct books, each consisting of separate volumes or parts dealing with different individual topics. With all authors are recognized authorities, the Chemistry of Heterocyclic Chemistry is considered worldwide as the indispensable resource for organic, bioorganic, and medicinal chemists.

Reports up-to-date research developments on purifying and isolation large organic molecules. The text provides information on high-performance liquid chromatography and capillary electrophoresis (CE) as tools for analyzing biomacromolecules and developing new biochemical and medicinal compounds. It applies biochemical separation technology to the study of macromolecules such as proteins, polysaccharides, nucleic acids and more.

This text provides an invaluable introduction for all undergraduate students of chemistry and a useful reference of more advanced students. The main group elements (including silicon and phosphorus, but not Group VI) and the transition elements are discussed. Emphasis is laid on structure, bonding, preparation and general reactions, with many specific examples of the uses of organometallics in organic synthesis interspersed throughout the text.

This book focuses on the different compounds (polyphenols, sterols, alkaloids terpenes) that arise from the secondary metabolism of plants and fungi and their importance for research and industry. These compounds have been the backbone and inspiration of various industries like the food, pharmaceutical and others to produce synthetic counterparts. Furthermore, many of these compounds are still widely used to carry out specific functions in all these industries. This book offers a compilation of different texts from world leading scientists in the areas of chemistry, biochemistry, plant science, biotechnology which compile information on each group of secondary metabolism compounds, and their most important applications in the food, pharmaceutical, cosmetic and textile industry. By showcasing the best uses of these compounds, the chemistry behind their production in plants and fungi, this book is a valuable resource and a "go to" artifact for various audiences. The new approach this book offers, by linking research and the application of these compounds, makes it interesting as an inspiration for new research or as a hallmark of what has been done in the secondary metabolism of plants and fungi in recent years. Although this book may be technical, it is also enjoyable as an integral reading experience due to a structured and integrated flow, from the origins of secondary metabolism in organisms, to the discovery of their effects, their high intensity research in recent years and translation into various industries. Beyond learning more on their chemistry, synthesis, metabolic pathway, readers will understand their importance to different research and industry.