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Books : Professional & Technical : Engineering : Materials : Properties : Electrical
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This accessible work, an established textbook, stresses the fundamental ideas relevant to an understanding of the electrical properties of materials. Topics are selected to illuminate the operation of devices having real applications. The mathematical treatment is kept straightforward. This book is intended for (2nd)3rd-4th year electrical and electronic engineering students. It should also be of interest to applied physicists and materials scientists.
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A thorough introduction to fundamental principles and applications
From its beginnings in metallurgy and ceramics, materials science now encompasses such high- tech fields as microelectronics, polymers, biomaterials, and nanotechnology. Electronic Materials Science presents the fundamentals of the subject in a detailed fashion for a multidisciplinary audience. Offering a higher-level treatment than an undergraduate textbook provides, this text benefits students and practitioners not only in electronics and optical materials science, but also in additional cutting-edge fields like polymers and biomaterials.
Readers with a basic understanding of physical chemistry or physics will appreciate the text's sophisticated presentation of today's materials science. Instructive derivations of important formulae, usually omitted in an introductory text, are included here. This feature offers a useful glimpse into the foundations of how the discipline understands such topics as defects, phase equilibria, and mechanical properties. Additionally, concepts such as reciprocal space, electron energy band theory, and thermodynamics enter the discussion earlier and in a more robust fashion than in other texts.
Electronic Materials Science also features:
* An orientation towards industry and academia drawn from the author's experience in both arenas
* Information on applications in semiconduct
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These lectures stress the fundamental ideas relevant to understanding the electrical properties of materials. Topics have been selected to explain the operation of devices that have direct application in the field of engineering, and the text is kept at a level comprehensible to second-year engineering students. Over the past few years there have been remarkable advances in the technology of semiconductor and laser devices. Revised and updated to include these new developments, the book covers the field of superconductivity and contains a completely new chapter on optoelectronics. The chapter on lasers has been rewritten and new problems and examples have been added throughout the text. The book thus serves as an informative, up-to-date reference for students in electrical engineering and physical electronics as well as for practicing engineers.
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ELECTRICAL MATERIALS 2E is the essential resource for success in electrical program courses. Whether learning theory, wiring, fastening systems, or conductors, this textbook covers all of the materials readers will encounter in each course. Each topic is clearly explained with numerous high-quality photographs illustrating each piece of material. And, because it's written in an outline format, it's an easy-to-use reference tool that comes in handy time and time again. Whether the job is industrial, commercial, or residential, ELECTRICAL MATERIALS 2E enables readers to identify materials quickly and easily.
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This book describes semiconductors from a materials science perspective rather than from condensed matter physics or electrical engineering viewpoints. It includes discussion of current approaches to organic materials for electronic devices. It further describes the fundamental aspects of thin film nucleation and growth, and the most common physical and chemical vapor deposition techniques. Examples of the application of the concepts in each chapter to specific problems or situations are included, along with recommended readings and homework problems.
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Today, the successful design and manufacture of electronic devices requires expertise in both materials science and manufacturing processes. This reference provides electronics engineers and materials scientists with the information they need on the materials and processes currently used to fabricate, interconnect and package electronic components and systems. Featuring more than 70 percent new or revised material, the second edition of this reference contains information on plastics, elastomers, and laminates; printed wiring boards; ceramics and glasses semiconductors; ferrous and nonferrous metals; wire and cable; metal joining of electronic circuits; thick and thin films; electrodeposition materials and processes; lithography and photofabrication; and materials and processes for advanced packaging.
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A skillful balance of theoretical considerations and practical know-how
Backed by a team of expert contributors, the Second Edition of this highly acclaimed publication brings a solid understanding of impedance spectroscopy to students, researchers, and engineers in physical chemistry, electrochemistry, and physics. Starting with general principles, the book moves on to explain in detail practical applications for the characterization of materials in electrochemistry, semiconductors, solid electrolytes, corrosion, solid-state devices, and electrochemical power sources. The book covers all of the topics needed to help readers identify whether impedance spectroscopy may be an appropriate method for their particular research problem.
The book helps readers quickly grasp how to apply their new knowledge of impedance spectroscopy methods to their own research problems through the use of unique features such as:
* Step-by-step instructions for setting up experiments and then analyzing the results
* Theoretical considerations for dealing with modeling, equivalent circuits, and equations in the complex domain
* Best measurement methods for particular systems and alerts to potential sources of errors
* Equations for the most widely used impedance models
* Figures depicting impedance spectra of typical materials and devices
* Extensive references to the scientific literatur
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Rich in applications-engineering detail, this integrated survey of recent research, development, and commercial applications offers complete coverage of InP and related materials.
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Polycrystalline Silicon for Integrated Circuits and Displays, Second Edition presents much of the available knowledge about polysilicon. It represents an effort to interrelate the deposition, properties, and applications of polysilicon. By properly understanding the properties of polycrystalline silicon and their relation to the deposition conditions, polysilicon can be designed to ensure optimum device and integrated-circuit performance. Polycrystalline silicon has played an important role in integrated-circuit technology for two decades. It was first used in self-aligned, silicon-gate, MOS ICs to reduce capacitance and improve circuit speed. In addition to this dominant use, polysilicon is now also included in virtually all modern bipolar ICs, where it improves the basic physics of device operation. The compatibility of polycrystalline silicon with subsequent high-temperature processing allows its efficient integration into advanced IC processes. This compatibility also permits polysilicon to be used early in the fabrication process for trench isolation and dynamic random-access-memory (DRAM) storage capacitors. In addition to its integrated-circuit applications, polysilicon is becoming vital as the active layer in the channel of thin-film transistors in place of amorphous silicon. When polysilicon thin-film transistors are used in advanced active-matrix dis
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Covering virtually all classes of insulating materials for electrical and electronic applications, this handbook offers immediate access to detailed information in one easy-to-use source. Included are major producers, technologies, methods of manufacture, trades, applicable standards and specifications, properties, uses, development programs, and market trends. Complete with a wealth of data and lacking in technical jargon, this book will be invaluable to electrical and electronics engineers who need to make informed choices about dielectric and electrical insulation materials as well as electrical engineering students in need of a comprehensive reference.
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There has been an unprecedented growth of interest in the electronic properties of materials over the past thirty years. This text provides a complete and structured approach to the understanding and description of the various properties of materials which are dependent on their electronic structure, the main objective is to provide an understanding of the diverse range of electronic materials and their properties. The text begins with simple definitions to qualify the properties of interest before describing the elementary underlying physics of electrons in materials. The electrical, thermal, magnetic and optical properties are then explained on the basis of electrons in materials. Finally the engineering applications of these materials in microelectronics, optoelectronics, magnetic recording, superconductivity, transducers and radiation detection are discussed, with the description of the applications of each of these important technological areas carefully related to the underlying explanations given earlier in the text. Each chapter contains numerous problems and complete worked solutions to every one is given in the apppendicies. As with the authors previous text, Introduction to magnetism and magnetic materials, the subject area under discussion is truly multidisciplinary, spanning the traditional subject areas of physics, electrical engineering and materials science. The presenta
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Requiring knowledge of the chemistry and physics of materials, this study relates the complete set of strength characteristics of constituent atoms to their electronic structures. The book uses classical and quantum mechanics (since both are needed to describe these properties) and begins with short reviews of each area. After the reviews, the three major branches of the strength of materials are divided into the following sections: the elastic stiffnesses; the plastic responses; and the nature of fracture.
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Understanding the origin of electrical properties of alloys is critical to the development of new materials. Dr. Rossiter blends theoretical and experimental results without relying on detailed quantum mechanics. After introducing the basic concepts of atomic and magnetic correlations, he explains their microstructural consequences. Later chapters deal with the effects of such correlations on electrical resistivity. Examples and applications are given in discrete sections, which allow the uninterrupted development of theory for each specific problem.
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This book provides the knowledge and understanding necessary to comprehend the operation of individual electronic devices that are found in modern micro-electronics. As a textbook, it is aimed at the third-year undergraduate curriculum in electrical engineering, in which the physical electronic properties are used to develop an introductory understanding to the semiconductor devices used in modern micro-electronics.
The emphasis of the book is on providing detailed physical insight into the microscopic mechanisms that form the cornerstone for these technologies. Mathematical treatments are therefore kept to the minimum level necessary to achieve suitable rigor.
* Covers crystalline structure
* Thorough introduction to the key principles of quantum mechanics
* Semiconductor statistics, impurities, and controlled doping
* Detailed analysis of the operation of semiconductor devices, including p-n junctions, field-effect transistors, metal-semiconductor junctions and bipolar junction transistors
* Discussion of optoelectronic devices such as light-emitting diodes (LEDs) and lasers
* Chapters on the device applications of dielectrics, magnetic materials, and superconductors
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The subject of electronic and ionic materials has grown rapidly in recent decades. The application of these materials has had a significant impact on modern industries and on society in general. The subject is so important that no electrical engineering, applied physics or chemistry degree would be complete without it. This textbook is aimed at engineering and technology undergraduates who have a background in physics or chemistry only at first year level. It provides a basic understanding of the properties and uses of a wide range of electrically and ionically conducting materials. It is not intended to be a solid state physics or chemistry book, and so the mathematics is kept to a minimum. However, it is intended to give the student an overview of a range of electrical materials and their uses in today's society.
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As the selection of material for particular engineering properties becomes increasingly important in keeping costs down, methods for evaluating material properties also become more relevant. One such method examines the geometry of grain boundaries, which reveals much about the properties of the material.
Studying material properties from their geometrical measurements, The Measurement of Grain Boundary Geometry provides a framework for a specialized application of electron microscopy for metals and alloys and, by extension, for ceramics, minerals, and semiconductors. The book presents an overview of the developments in the theory of grain boundary geometry and its practical applications in material engineering. It also covers the tunneling electron microscope (TEM), experimental aspects of data collection, data processing, and examples from actual investigations. Each step of the analysis process is clearly described, from data collection through processing, analysis, representation, and display to applications. The book also includes a glossary of terms.
Exploring both the experimental and analytical aspects of the subject, this practical reference guide is essential for researchers and students involved in material properties, whether in physics, materials science, metallurgy, or physical chemistry.
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Complete solutions to all the problems in Lectures on the Electrical Properties of Materials 5/e (Solymer and Walsh). This volume also includes the problems themselves and so is useful as a sourcebook for lectures or as a revision aid in its own right.
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