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The only possible weakness in the coverage is the assumption that most chemists will be using some form of UNIX e-mail. While this may be a valid assumption for our more computer-oriented colleagues, it is likely that a POP mail client like Eudora is more commonly used by many chemists.
- Transition to Chaos in Classical and Quantum Mechanics: Lectures Given at the 3rd Session of the Centro Internazionale Matematico Estivo (C.I.M.E.) Held in Montecatini, Italy, July 6-13, 1991?
- Kirk-Othmer Encyclopedia of Chemical Technology, Volume 10.
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- Building the e-World Ecosystem: 11th IFIP WG 6.11 Conference on e-Business, e-Services, and e-Society, I3E 2011, Kaunas, Lithuania, October 12-14, 2011, Revised Selected Papers!
- Time-Triggered Communication.
- Transfer and Management of Knowledge;
Thus, a chapter addressing this type of e-mail usage would have been highly desirable. Overall, the authors of this book have done an excellent job of covering a rapidly moving target, and it is highly recommended for nonchemists as well as chemists.
Kirk Othmer books
Gary D. Dresselhaus MIT , G. Dresselhaus MIT , and P. Eklund University of Kentucky. Academic Press: San Diego. Here is a thoroughly edited and proofread volume which is a delight to read and which should prove to be an enduring source of reliable information for many years. The book contains an extensive presentation of the fullerene story, from ancient references to the truncated icosahedron, through the post-gram-scale explosion of fundamental research, to the most recent speculation on possible applications.
The authors begin with a historical discussion of carbon clusters, and thereafter spend an entire chapter on the various forms of carbon and carbonaceous materials. The next two chapters present the structure of C60 and some higher fullerenes, and symmetry considerations. Syntheses of fullerenes via laser ablation of carbon electrodes, combustion, resistive heating of carbon rods, and plasma discharge between electrodes are discussed in Chapter 5, along with the chromatography and extraction techniques necessary for the production of clean samples.
The issue of fullerene growth models is covered in the next chapter. A good discussion of the special stability of the and carbon molecules is given. Crystal structure information on C60 and what is known in this area about the higher fullerenes come next. Because the electrical properties of doped fullerenes have generated so much attention in the research community, the authors have written a 50page reference chapter on endohedrally, exohedrally, and substitutionally doped fullerenes.
Work on the various methods of growing ordered arrays of fullerenes is presented in Chapter 9. Cyclic voltammetry and its relationship to the alkenoid organic chemical reactivity of C60 are then discussed. Chapters on IR and Raman spectroscopy, molecular orbital theory and electron energy levels, UV-VIS-NIR behavior, and thermal and electrical properties are followed by an informative chapter on superconductivity. The chapter on tubules is more than pages long. Perhaps the chapter that most readers will turn to first is the last: the applications chapter.
From the viewpoint of chemists, materials scientists, business people, and futurists, the possibilities are without limit. Both devices which have been made and possible uses which have yet to be demonstrated are discussed. The subject matter includes batteries, microchip fabrication, self-assembled monolayers, quantum wires, catalysts, lubricants, etc.
This volume contains 20 chapters, most of which have in excess of references. Robert V. Edited by A. Bulsari Lappeenranta University of Technology, Finland. With the plethora of books on neural networks one can find in a bookstore, this is one book that most engineers, in addition to chemical engineers, may find worth keeping handy as a personal reference in spite of its price tag. The book comprises 2 sections and 27 chapters. The first section, Chapters , presents a comprehensive overview of various neural network models. Chapter 1 reviews 7 main types of neural network models, namely, the multilayered perceptron MLP, detailed in Chapter 3 , learning vector quantization network LVQ , group method of data handling network, Hopfield network, Elman and Jordon network, Kohonen network detailed in Chapter 2 , and adaptive resonance theory ART network.
Although it is arguable that the 7 are the main representations of all neural networks, e. Additional neural network models, such as the neocognitron, Boltzmann perceptron, ART2, and radial basis function RBF network, though not mentioned in Chapter 1, can be found in later chapters throughout the book. Chapter 4 offers an insight into a problem to which most engineers seek answer in using neural networks: What is the maximal number of nodes required in an MLP hidden layer? The fifth chapter is a good summary of neural networks and compares its utility with classical propositional logicsconnectionism vs symbolism, the two main camps of artificial intelligence.
Kirk-Othmer Encyclopedia of Chemical Technology [Vol 25]
In spite of its place in Section 1, Chapter 6, along with Chapters , presents 22 application case studies of neural networks. Chapter 12 discusses local modeling as a tool for semiempirical and semimechanistic process modeling.
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Though a solid chapter, the reviewer fails to find its connection with neural networkssthe subject matter of the book. It is worth mentioning that several non-chemicalengineering subjects are discussed in this book, making the book appealing to a general engineering audience. Examples of such subjects include genetic algorithm application to neural networks Chapter 1 , visualization of speech signals using a self-organizing map Chapter 14 , multiresolution wavelet representation of neural networks Chapter 20 , implementation of fuzzy rule-based systems through neural networks Chapter 21 , and implementation of multivariate statistics using neural networks Chapters 26 and It is also worth noting that the contributors to this book come from all around the world, from the U.
The editor has done an admirable job in integrating the work from around the globe on the subject of neural networks. Edited by Norman Herron and David R. Corbin DuPont Co. Kluwer Academic: Dordrecht, The Netherlands. Zeolites are crystalline microporous materials that possess relatively large cages interconnected by molecular-sized channels.
The zeolites, therefore, play host to a variety of guest molecules. The nature and the type of the occluded molecules and the interaction between the guest and the host molecules determine the properties of such zeolitic materials. The editors of this volume set out to bring together a collection of review papers emphasizing recent developments in various aspects of guest-host interactions or inclusion chemistry with zeolites.
Kirk-Othmer Encyclopedia of Chemical Technology, Volume 10, 5th Edition
They have succeeded admirably in doing so. The book has 11 chapters each written by active researchers in the field. The first chapter discusses the probing of intrazeolite space by adsorption of probe molecules of varying size and geometry. The second chapter reviews the concept of structure direction in the synthesis J. The role played by the size, geometry, and chemical nature of the structure-directing agent on the crystalline structure and the dimensionality of the pore structure is discussed thoroughly.
The next two chapters deal with the use of structural techniques such as powder X-ray diffraction and NMR spectroscopy to study the guest-host interactions. The third chapter discusses in detail the studies on desorption of Xe from zeolite rho and the location of adsorbed stilbene in ZSM-5 by X-ray diffraction. The fourth chapter details the use of probe molecules such as xenon and aromatics adsorbed in X and Y zeolites with NMR spectroscopy to determine the guest-host interactions. The fifth chapter reviews the computational tools such as molecular dynamics and Monte Carlo simulations available for modeling the behavior of adsorbed molecules in zeolites.
The discussion is illustrated with specific examples of microdynamics of benzene in X and Y zeolites. The next three chapters discuss encapsulation of different molecules in zeolites. The sixth chapter discusses various encapsulation techniques such as metal cluster, template and zeolite synthesis methods, and the characterization methods to determine the location of the metal complex in the zeolite cavity. The next chapter reviews the methods of encapsulating the transition metal ion complexes in zeolite Y. The eighth chapter discusses the role played by the structure-directing agent in the assembly process of zeolites.
The use of zeolites with encaged guest molecules to carry out photochemical reaction has been discussed in the next chapter. It is demonstrated that the cation embedded in the zeolite matrix can be used to control the photophysical and photochemical properties of the guest molecules encapsulated in zeolites. The final two chapters deal with the optical and electronic properties of zeolites encapsulated with metals, semiconductors, polymer particles, and alkali-metal clusters.
Even though most of the reviews are quite up-to-date, there are exceptions. A great majority of the references cited therein are from the s and the s, and a very few are from the s. Overall, however, this is an excellent book. It represents a compilation of reviews in different aspects of zeolite-inclusion chemistry. The various methods of synthesizing entrapped molecules in zeolites, the methods of characterization, and properties of such zeolitic materials are delineated by the experts in the field and compiled in a single source.
The book deserves to be on the shelf of research scientists working in the area of zeolite synthesis and characterization. However, the prohibitively expensive purchase price of the book will be a detriment to many who would want to do so. Dhananjai B. Edited by Zahid Amjad The B. Goodrich Co. Plenum: New York. The symposium was sponsored by the Division of Colloid and Surface Chemistry.
This book provides an introduction to the type and severity of scaling problems in both industrial and biological systems. A total of 30 papers were presented. This volume also contains papers that were not presented but were in the symposium program. Edited by T. Kaplan and S. Mahanti Michigan State University. This volume is a part of a series of books, which will appear at the rate of about one per year, addressing fundamental problems in materials science.
The topics will cover a broad range of topics from small clusters of atoms to engineering materials. The topics will involve chemistry, physics, and engineering, with length scales ranging from angstroms up to millimeters. The emphasis will be on basic science rather than on applications.