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Properties and applications of high surface area materials depend on interfacial phenomena, including diffusion, sorption, dissolution, solvation, surface reactions, catalysis, and phase transitions. Among the physicochemical methods that give useful information regarding these complex phenomena, nuclear magnetic resonance (NMR) spectroscopy is the most universal, yielding detailed structural data regarding molecules, solids, and interfaces. Nuclear Magnetic Resonance Studies of Interfacial Phenomena summarizes NMR research results collected over the past three decades for a wide range of materials—from nanomaterials and nanocomposites to biomaterials, cells, tissues, and seeds. This book describes the applications of important new NMR spectroscopic methods to a variety of useful materials and compares them with results from other techniques such as adsorption, differential scanning calorimetry, thermally stimulated depolarization current, dielectric relaxation spectroscopy, infrared spectroscopy, optical microscopy, and small-angle and wide-angle x-ray scattering. The text explores the application of NMR spectroscopy to examine interfacial phenomena in objects of increasing complexity, beginning with unmodified and modified silica materials. It then describes properties of various mixed oxides with comparisons to individual oxides and also describes carbon materials such as graphite and carbon nanotubes. Chapters deal with carbon–mineral hybrids and their mosaic surface structures, and interfacial phenomena at the surface of natural and synthetics polymers. They also explore a variety of biosystems, which are much more complex, including biomacromolecules (proteins, DNA, and lipids), cells and tissues, and seeds and herbs. The authors cover trends in interfacial phenomena investigations, and the final chapter describes NMR and other methods used in the book. This text presents a comprehensive description of a large array of hard and soft materials, allowing the analysis of the structure–property relationships and generalities on the interfacial behavior of materials and adsorbates.
Solid-State NMR Characterization of Heterogeneous Catalysts and Catalytic Reactions provides a comprehensive account of state-of-the-art solid-state NMR techniques and the application of these techniques in heterogeneous catalysts and related catalytic reactions. It includes an introduction to the basic theory of solid-state NMR and various frequently used techniques. Special emphasis is placed on characterizing the framework and pore structure, active site, guest-host interaction, and synthesis mechanisms of heterogeneous catalysts using multinuclear one- and two-dimensional solid-sate NMR spectroscopy. Additionally, various in-situ solid-state NMR techniques and their applications in investigation of the mechanism of industrially important catalytic reactions are also discussed. Both the fundamentals and the latest research results are covered, making the book suitable as a reference guide for both experienced researchers in and newcomers to this field. Feng Deng is a Professor at Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences.
The content of this volume has been added to the online reference work Encyclopedia of Magnetic Resonance. For further information see Encyclopedia of Magnetic Resonance. As a stand alone volume, Advances in NMR comprehensively highlights the rapid progress of nuclear magnetic resonance over the last five years. Features 66 articles on the latest major advances in NMR Written by over 80 internationally recognised experts With over 900 pages, illustrated extensively throughout, and an easy to read large double-columned format, Advances in NMR covers indepth articles on the latest advances in spectroscopic techniques; nuclear interactions; biochemical, physical and chemical applications. Including these outstanding articles: Double-Quantum NMR Spectroscopy of Dipolar Coupled Spins Under Fast Magic Angle Spinning (H W Spiess) Pulse Sequence Design using Rotor and Spin Symmetry ( M Levitt) Indirect Nuclear Spin-Spin Coupling Tensors (R E Wasylishen) Weakly Aligned Biomolecules in Liquid Crystals (A Bax) Multiple-Resonance, Multi-dimensional Solid-state NMR of Proteins (S J Opella) Dynamics of Hydrogen Transfer in Liquids and Solids (H Limbach) Optically Pumped NMR of Semiconductors and Two-dimensional Electron Systems (R Tycko/S E Barrett) "The list of contributors looks like a Who's Who of the subject" —The Times Higher Education Supplement
This book presents a critical assessment of progress on the use of nuclear magnetic resonance spectroscopy to determine the structure of proteins, including brief reviews of the history of the field along with coverage of current clinical and in vivo applications. The book, in honor of Oleg Jardetsky, one of the pioneers of the field, is edited by two of the most highly respected investigators using NMR, and features contributions by most of the leading workers in the field. It will be valued as a landmark publication that presents the state-of-the-art perspectives regarding one of today's most important technologies.