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The field of aromatic interactions, the fundamental nature of substituent effects and the identification of contacts between anions and aromatic systems have generated stimulating arguments in recent years. New theoretical frameworks have been developed and tested and aromatic interactions have emerged as potential solutions for varied problems in biology and materials science. This book provides a wide ranging survey of the latest findings and advances surrounding aromatic interactions, stretching from the fundamentals to modern applications in synthesis, biology and materials chemistry. It also discusses computational, experimental and analytical approaches to understanding these interactions, including pi-pi, anion-pi, and cation-pi interactions. Aromatic Interactions: Frontiers in Knowledge and Application is a useful text for advanced students and researchers, and appeals to those working within the fields of supramolecular chemistry, computational chemistry and thermodynamics.
Table of contents P.L.A. Popelier: Quantum Chemical Topology: on Bonds and Potentials.- A. Soncini, P.W. Fowler, L.W. Jenneskens: Angular Momentum and Spectral Decomposition of Ring Currents: Aromaticity and the Annulene Model.- S.L. Price, L.S. Price: Modelling Intermolecular Forces for Organic Crystal Structure Prediction.- C. Millot: Molecular Dynamics Simulations and Intermolecular Forces.- S. Tsuzuki: Interactions with Aromatic Rings
This book aims to overview the role of non-covalent interactions, such as hydrogen and halogen bonding, π-π, π-anion and electrostatic interactions, hydrophobic effects and van der Waals forces in the synthesis of organic and inorganic compounds, as well as in design of new crystals and function materials. The proposed book should allow to combine, in a systematic way, recent advances on the application of non-covalent interactions in synthesis and design of new compounds and functional materials with significance in Inorganic, Organic, Coordination, Organometallic, Pharmaceutical, Biological and Material Chemistries. Therefore, it should present a multi- and interdisciplinary character assuring a rather broad scope. We believe it will be of interest to a wide range of academic and research staff concerning the synthesis of new compounds, catalysis and materials. Each chapter will be written by authors who are well known experts in their respective fields.
Aromatic Herbs in Food: Bioactive Compounds, Processing, and Applications thoroughly explores three critical dimensions: properties of bioactive compounds, recovery and applications. The book covers the most trending topics in herbs' applications, putting emphasis on the health components of spices and herbs, their culinary use, their application for the treatment of functional gastrointestinal disorders, quality and safety requirements for usage in foods, processing, extraction technologies, green extraction technologies, encapsulation of recovered bioactives, applications and interactions with food components, applications as food supplements for weight loss, usage in active food packaging, the applications of rosemary and sage extracts, and much more. This book is ideal for food scientists, technologists, engineers and chemists working in the whole food science field. In addition, nutrition researchers working on food applications and food processing will find the content very valuable. - Covers all the important aspects of herbs, such as properties, processing, recovery issues and their applications - Brings the health components of spices and herbs, their culinary use and applications for the treatment of functional gastrointestinal disorders - Explores herbs' processing, extraction technologies, green extraction technologies, encapsulation of recovered bioactives, applications, and interactions with food components
There are more than 20 million chemicals in the literature, with new materials being synthesized each week. Most of these molecules are stable, and the 3-dimensional arrangement of the atoms in the molecules, in the various solids may be determined by routine x-ray crystallography. When this is done, it is found that this vast range of molecules, with varying sizes and shapes can be accommodated by only a handful of solid structures. This limited number of architectures for the packing of molecules of all shapes and sizes, to maximize attractive intermolecular forces and minimizing repulsive intermolecular forces, allows us to develop simple models of what holds the molecules together in the solid. In this volume we look at the origin of the molecular architecture of crystals; a topic that is becoming increasingly important and is often termed, crystal engineering. Such studies are a means of predicting crystal structures, and of designing crystals with particular properties by manipulating the structure and interaction of large molecules. That is, creating new crystal architectures with desired physical characteristics in which the molecules pack together in particular architectures; a subject of particular interest to the pharmaceutical industry.
This atlas contains a comprehensive description of how amino acid side chains pack against one another within known protein structures. This packing, which is governed by the interactions between the 20 different types of side chains, determines the structure function and stability of proteins all 400 possible pairwise interactions are represented here, each having two pages of information describing it in the form of graphs and stero plots.
Offers general information on enzyme nomenclature, provided by the Queen Mary and Westfield College Department of Chemistry in London, England for the Nomenclature Committee of the International Union of Biochemistry and Molecular Biology (NC-IUBMB). Lists recommended names for enzymes.
Water and Biological Macromolecules presents an excellent description of the structural aspects of water molecules around biological macromolecules. Topics discussed include the properties of water in solid and liquid states; proteins, nucleic acids, polysaccharides, and lipids; and theoretical approaches for understanding the macroscopic observations and integrating microscopic descriptions. The nature and roles of hydration forces in macromolecular complexation and cell-cell interactions are explained, in addition to phenomena such as entropy-enthalpy compensation and the thermodynamic treatment of water bridging. Water and Biological Macromolecules will be a valuable reference for biophysicists, biochemists, and macromolecular biologists.
The VitalBook e-book of Introduction to Protein Structure, Second Edition is inly available in the US and Canada at the present time. To purchase or rent please visit http://store.vitalsource.com/show/9780815323051Introduction to Protein Structure provides an account of the principles of protein structure, with examples of key proteins in their bio