Lanthanides: Fundamentals and Applications provides the fundamentals, new research, promising applications and future outlooks of lanthanide compounds and lanthanide-based materials. The book begins with an introduction, including key concepts, oxidation states and sources, extraction and separation of the lanthanides, followed by spectroscopic and magnetic properties, and metals, crystals and compounds. Organometallic compounds, coordination compounds, molecular magnetic materials and luminescent materials are covered before a discussion of specific lanthanide applications. Spintronics, bioimaging, photoelectric materials, catalysis and nuclear applications are discussed. This comprehensive resource is ideal for researchers and students studying inorganic and materials chemistry, in both academia and industry.
Essentials of Coordination Chemistry: A Simplified Approach with 3D Visuals provides an accessible overview of this key, foundational topic in inorganic chemistry. Thoroughly illustrated within the book and supplemented by online 3D images and videos in full color, this valuable resource covers basic fundamentals before exploring more advanced topics of interest. The work begins with an introduction to the structure, properties, and syntheses of ligands with metal centers, before discussing the variety of isomerism exhibited by coordination compounds, such as structural, geometrical and optical isomerism. As thermodynamics and kinetics provide a gateway to synthesis and reactivity of coordination compounds, the book then describes the determination of stability constants and composition of complexes. Building upon those principles, the resource then explains a wide variety of nucleophilic substitution reactions exhibited by both octahedral and square planar complexes. Finally, the book discusses metal carbonyls and nitrosyls, special classes of compounds that can stabilize zero or even negative formal oxidation states of metal ions. Highlighting preparations, properties, and structures, the text explores the unique type of Metal-Ligand bonding which enable many interesting applications of these compounds. Thoughtfully organized for academic use, Essentials of Coordination Chemistry: A Simplified Approach with 3D Visuals encourages interactive learning. Advanced undergraduate and graduate students, as well as researchers requiring a full overview and visual understanding of coordination chemistry, will find this book invaluable.
Coordination Chemistry is a collection of invited lectures presented at the 20th International Conference on Coordination Chemistry held in Calcutta, India, on December 10-14, 1979, and organized by the International Union of Pure and Applied Chemistry in cooperation with India's National Science Academy and the Department of Science & Technology. The conference covers a wide range of topics relating to coordination chemistry, including the stereochemistry of coordination compounds; the mechanism of the base hydrolysis of octahedral cobalt(III) complexes; and metal chelates as anticancer agents. This book consists of 26 chapters and opens with a discussion on some developments in the stereochemistry of coordination complexes, including the creation of ""sepulchrate"" ions of cobalt, chromium, ruthenium, and platinum; the preparation of planar complexes containing ligands spanning trans-positions; and the separation of optical and configurational isomers of octahedral complexes containing unsymmetrical and asymmetric ligands. The following chapters explore complex chemistry and the mimicry of metalloenzymes; metal complexes with functionalized macrocyclic ligands; binuclear complexes in electron transfer reactions; and application of coordination chemistry in biology and medicine. The synthetic and structural chemistry of transition metals is also considered, along with linear free energy relationships in coordination chemistry. This monograph will be a valuable source of information for practitioners and research workers in the field of pure and applied chemistry, particularly coordination chemistry.
NMR is a growing technique which represents a generalized, spread, common tool for spectroscopy and for structural and dynamic investigation. Part of the field of competence of NMR is represented by molecules with unpaired electrons, which are called paramagnetic. The presence of unpaired electrons is at the same time a drawback (negative effect) and a precious source of information about structure and dynamics. New phenomena and effects are described which are due to the high magnetic fields and advances in the methodology. Solution NMR of Paramagnetic Molecules is unique in dealing with these matters. The scope is that of presenting a complete description, which is both rigorous and pictorial, of theory and experiments of NMR of paramagnetic molecules in solution. Pertinent examples are described. From the time dependent behaviour of electrons in the various metal ions including polimetallic systems to the hyperfine-based information, and from NMR experiments to constraints for solution structure determination. The book's major theme is how to perform high resolution NMR experiments and how to obtain structural and dynamic information on paramagnetic metal ion containing systems.