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Homogeneous Catalysis with Metal Phosphine Complexes
The field of transition metal catalysis has experienced incredible growth during the past decade. The reasons for this are obvious when one considers the world's energy problems and the need for new and less energy demanding syntheses of important chemicals. Heterogeneous catalysis has played a major industrial role; however, such reactions are generally not selective and are exceedingly difficult to study. Homogeneous catalysis suffers from on-site engineering difficulties; however, such reactions usually provide the desired selectivity. For example, Monsanto's synthesis of optically-active amino acids employs a chiral homogeneous rhodium diphosphine catalyst. Industrial uses of homogeneous catalyst systems are increasing. It is not by accident that many homogeneous catalysts contain tertiary phosphine ligands. These ligands possess the correct steric and electronic properties that are necessary for catalytic reactivity and selectivity. This point will be emphasized throughout the book. Thus the stage is set for a comprehensive be treatment of the many ways in which phosphine catalyst systems can designed, synthesized, and studied.
High-Temperature Superconducting Materials
Emphasizing a multidisciplinary approach reflecting distinguished contributions by chemists, physicists, materials scientists, ceramicists, and electrical engineers, this timely reference gives a unified, comprehensive treatment of superconductivity encompassing background information for beginners and pioneering research for the most advanced specialists. Complete with over 500 citations of related literature and numerous diagrams, tables, and photographs, High-Temperature Superconducting Materials includes a review of oxide superconductors' structure/property relationships and factors affecting the conduction mechanism ... chronology of developments leading to the discovery of high-tempera...
Energy, Environmental & Sustainable Ecosystem Development - International Conference On Energy, Environmental & Sustainable Ecosystem Development (Eesed 2015)
In the rapid development of global economics, energy, environmental & ecosystem are recognized as important factors for sustainable development in human society. The application of measurement and control technology also play a very important role in the utilization and protection of energy and the environment.2015 International Conference on Energy, Environmental & Sustainable Ecosystem Development (EESED 2015) is a multidisciplinary international conference that provides a platform for scientists, engineers and researchers worldwide to share their ideas and present solutions to energy, environmental & sustainable ecosystem development issues.
Tutorial Symposium on Electrochemical Engineering, in Honor of Professor John Newman’s 70th Birthday
Quantitative methods for the analysis and design of electrochemical systems have progressed greatly over the past forty years. Much of this progress is due to the work of Professor John Newman of the University of California-Berkeley. A tutorial symposium was organized to recognize Prof. Newman¿s contributions on the occasion of his 70th birthday. This issue contains a series of invited lectures covering the basic principles of electrochemical engineering as well as a variety of examples of applications in electrodeposition, fuel cells, batteries, and electrolytic processes.
