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Photochemistry and Photophysics of Coordination Compounds: Fundamentals and Applications provides a systematic overview of the photochemical and photophysical properties of coordination compounds with different metal cores. Beginning with a clear introduction to the fundamentals of both photochemistry and coordination chemistry, the book goes on to outline the photochemical and photophysical properties of a large range of coordination compounds, clustering metal cores together in chapters according to their period table group, ranging across Transition metals, Lanthanides and Actinides. In addition to outlining their properties, each chapter discusses the synthesis, current applications and future potential of coordination compounds in each group.Drawing on the experience of a global team of experts, this book is an authoritative guide for all those interested in understanding and harnessing the photochemical properties and potential applications of coordination complexes for their own work. - Introduces the fundamentals of both photochemistry and coordination compounds - Supports learning through carefully structured content, with chapters uniquely arranged by period table group - Bridges the knowledge gap between theory and practice by presenting application examples in each chapter
Advances in Inorganic Chemistry and Radiochemistry
The series Structure and Bonding publishes critical reviews on topics of research concerned with chemical structure and bonding. The scope of the series spans the entire Periodic Table and addresses structure and bonding issues associated with all of the elements. It also focuses attention on new and developing areas of modern structural and theoretical chemistry such as nanostructures, molecular electronics, designed molecular solids, surfaces, metal clusters and supramolecular structures. Physical and spectroscopic techniques used to determine, examine and model structures fall within the purview of Structure and Bonding to the extent that the focus is on the scientific results obtained and not on specialist information concerning the techniques themselves. Issues associated with the development of bonding models and generalizations that illuminate the reactivity pathways and rates of chemical processes are also relevant. The individual volumes in the series are thematic. The goal of each volume is to give the reader, whether at a university or in industry, a comprehensive overview of an area where new insights are emerging that are of interest to a larger scientific audience. Thus each review within the volume critically surveys one aspect of that topic and places it within the context of the volume as a whole. The most significant developments of the last 5 to 10 years should be presented using selected examples to illustrate the principles discussed. A description of the physical basis of the experimental techniques that have been used to provide the primary data may also be appropriate, if it has not been covered in detail elsewhere. The coverage need not be exhaustive in data, but should rather be conceptual, concentrating on the new principles being developed that will allow the reader, who is not a specialist in the area covered, to understand the data presented. Discussion of possible future research directions in the area is welcomed. Review articles for the individual volumes are invited by the volume editors. Readership: research scientists at universities or in industry, graduate students Special offer For all customers who have a standing order to the print version of Structure and Bonding, we offer free access to the electronic volumes of the Series published in the current year via SpringerLink.
From MEMS to Bio-MEMS and Bio-NEMS: Manufacturing Techniques and Applications details manufacturing techniques applicable to bionanotechnology. After reviewing MEMS techniques, materials, and modeling, the author covers nanofabrication, genetically engineered proteins, artificial cells, nanochemistry, and self-assembly. He also discusses scaling laws in MEMS and NEMS, actuators, fluidics, and power and brains in miniature devices. He concludes with coverage of various MEMS and NEMS applications. Fully illustrated in color, the text contains end-of-chapter problems, worked examples, extensive references for further reading, and an extensive glossary of terms. Details the Nanotechnology, Biology, and Manufacturing Techniques Applicable to Bionanotechnology Topics include: Nonlithography manufacturing techniques with lithography-based methods Nature as an engineering guide and contrasts top-down and bottom-up approaches Packaging, assembly, and self-assembly from ICs to DNA and biological cells Selected new MEMS and NEMS processes and materials, metrology techniques, and modeling Scaling laws, actuators, power generation, and the implementation of brains in miniaturizes devices Different strategies for making micromachines smarter The transition out of the laboratory and into the marketplace The third volume in Fundamentals of Microfabrication and Nanotechnology, Third Edition, Three-Volume Set, the book discusses top-down and bottom-up manufacturing methods and explains how to use nature as a guide. It provides a better understanding of how to match different manufacturing options with a given application that students can use to identify additional killer MEMS and NEMS applications. Other volumes in the set include: Solid-State Physics, Fluidics, and Analytical Techniques in Micro- and Nanotechnology Manufacturing Techniques for Microfabrication and Nanotechnology
Coordination Chemistry XVI is a compendium of papers that deals with structured absorption band, intra-molecular electron transfer, and the influence of natural and synthetic ligands on the transport and function of metal ions in the environment. Experiments show that the chemical, spectral and kinetic results of the physical state of an enzyme can be a significant experimental variable that will change function-related-conformations. Another paper points out the dangers of assigning weakly structured bands to partially resolved vibrations, to lower symmetry, to spin-orbit coupling, and to the Jahn-Teller effects. One paper deals with intra-molecular electron transfer in three manifestations: 1) in traditional oxidation-reduction reactions; 2) in induced electron transfer; and 3) in mixed valence complexes. Another paper discusses the reactivity of polynuclear metal complexes involving metal-metal bonds with simple inorganic and organic molecules, particularly, polynuclear aggregates' basic structural forms and polynuclear's fluxional nature. One paper investigates the environmental effects of coordination compounds that disturb the natural balance and levels of metal ions and metal complexes in the ecosystem. The paper cites examples of pollutions caused by abnormal amounts of metal salts and metal complexes introduced in the ecosystem, and the presence of synthetic ligands or abnormal levels of natural ligands in the environment. The compendium is suitable for analytical and organic chemists, chemical engineers, environmentalists, and students of biochemistry.
Now in its third edition, Fundamentals of Microfabrication and Nanotechnology continues to provide the most complete MEMS coverage available. Thoroughly revised and updated the new edition of this perennial bestseller has been expanded to three volumes, reflecting the substantial growth of this field. It includes a wealth of theoretical and practical information on nanotechnology and NEMS and offers background and comprehensive information on materials, processes, and manufacturing options. The first volume offers a rigorous theoretical treatment of micro- and nanosciences, and includes sections on solid-state physics, quantum mechanics, crystallography, and fluidics. The second volume presents a very large set of manufacturing techniques for micro- and nanofabrication and covers different forms of lithography, material removal processes, and additive technologies. The third volume focuses on manufacturing techniques and applications of Bio-MEMS and Bio-NEMS. Illustrated in color throughout, this seminal work is a cogent instructional text, providing classroom and self-learners with worked-out examples and end-of-chapter problems. The author characterizes and defines major research areas and illustrates them with examples pulled from the most recent literature and from his own work.
Volume 9 in a scientific research series, covering macromolecules This book, Macromolecules Containing Metal and Metal-like Elements, presents research developments in the study of: supramolecular chemistry, supramolecular architecture and supramolecular self-assemblies. The topics addressed involve materials containing metals and metal-like elements as well as the possible applications of hybrid materials. The volume offers a broad series of coverage with conclusions and perspectives for the various areas covered.
This series provides inorganic chemists with detailed and foolproof procedures for the preparation of important and timely compounds. Volume 34 continues to report such procedures with an up-to-date selection of contributions by internationally-recognized researchers, including the following:
Understanding, identifying and influencing the biological systems are the primary objectives of chemical biology. From this perspective, metal complexes have always been of great assistance to chemical biologists, for example, in structural identification and purification of essential biomolecules, for visualizing cellular organelles or to inhibit specific enzymes. This inorganic side of chemical biology, which continues to receive considerable attention, is referred to as inorganic chemical biology. Inorganic Chemical Biology: Principles, Techniques and Applications provides a comprehensive overview of the current and emerging role of metal complexes in chemical biology. Throughout all of the chapters there is a strong emphasis on fundamental theoretical chemistry and experiments that have been carried out in living cells or organisms. Outlooks for the future applications of metal complexes in chemical biology are also discussed. Topics covered include: • Metal complexes as tools for structural biology • IMAC, AAS, XRF and MS as detection techniques for metals in chemical biology • Cell and organism imaging and probing DNA using metal and metal carbonyl complexes • Detection of metal ions, anions and small molecules using metal complexes • Photo-release of metal ions in living cells • Metal complexes as enzyme inhibitors and catalysts in living cells Written by a team of international experts, Inorganic Chemical Biology: Principles, Techniques and Applications is a must-have for bioinorganic, bioorganometallic and medicinal chemists as well as chemical biologists working in both academia and industry.