Electronic Conduction
Electronic Conduction

Author: John P. Xanthakis

Publisher: CRC Press

Published: 2020-12-14

Total Pages: 311

ISBN-13: 0429014341

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Electronic Conduction: Classical and Quantum Theory to Nanoelectronic Devices provides a concise, complete introduction to the fundamental principles of electronic conduction in microelectronic and nanoelectronic devices, with an emphasis on integrating the quantum aspects of conduction. The chapter coverage begins by presenting the classical theory of conduction, including introductory chapters on quantum mechanics and the solid state, then moving to a complete presentation of essential theory for understanding modern electronic devices. The author’s unique approach is applicable to microscale and nanoscale device simulation, which is particularly timely given the explosion in the nanoelectronics field. Features Self-contained Gives a complete account of classical and quantum aspects of conduction in nanometer scale devices Emphasises core principles, the book can be useful to electrical engineers and material scientists, and no prior course in semiconductors is necessary Highlights the bridge to modern electronics, first presenting the physics, and then the engineering complications related to quantum behaviour Includes many clear, illustrative diagrams and chapter problem sets Gives an account of post-Silicon devices such as the GaAs MOSFET, the CNT-FET and the vacuum transistor Showcases why quantum mechanics is necessary with modern devices due to their size and corresponding electron transport properties Discusses all the issues that will enable readers to conduct their own research

Electronic Conduction in Oxides
Electronic Conduction in Oxides

Author: Nobuo Tsuda

Publisher: Springer Science & Business Media

Published: 2013-03-09

Total Pages: 334

ISBN-13: 3662026686

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This book is a revised and up-dated translation of Denki DendOsei Sankabutsu (Electronic Conduction in Oxides) published by Shokabo in Tokyo in 1983 as the second volume of the Material Science Series, which was edited for postgraduate students by T. Suzuki, S. Chikazumi, and S. Nakajima. Since the publication of the first edition, we have witnessed the historic discovery of high-Tc superconductors by J. G. Bednorz and K. A. Müller. Tbe Shokabo edition has thus been thoroughly revised to accommodate the recent developments, and K. Nasu joined as the fourth author. The constitution of the book is as follows: After a short introductory chapter, Chap. 2 is devoted 10 a brief review of transport phenomena and electronic states in oxides. It was written by Tsuda. In Chap. 3, the electron-phonon and electron electron interaction are treated theoretically by Nasu and Yanase. Nasu discusses the present status of theoretical studies of the electron-phonon interaction in solids and Yanase explains the electron correlation. Chapter 4 treats the physics ofvarious representative oxides in detail. Sections 4. 1-5 and 4. 10 were written by Tsuda and Sects. 4. 6-9 by Siratori. This chapter is intended not as an exhaustive review of the properties of each oxide, but rather as an illustration of the concepts which have developed out of the research into transport phenomena in conductive oxides. Many of these concepts are due 10 N. F. Mott. At the end of Chap.

Physics of Electronic Conduction in Solids
Physics of Electronic Conduction in Solids

Author: Frank J. Blatt

Publisher:

Published: 1968

Total Pages: 472

ISBN-13:

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Classification of solids -- Lattice vibrations and lattice specific heat -- Equilibrium properties of a free-electron gas -- Electrons in a periodic lattice -- Transport equation -- Relaxation mechanisms -- Conductivity and related phenomena : metals -- Homogeneous semiconductors -- Rectifying junctions and transistors -- Optical properties of semiconductors -- Properties of semiconductors and metals in strong magnetic fields -- Appendix A. Summary of Elementary Quantum Mechanics -- Appendix B. Units and Conversion factors -- Appendix C. The Periodic Table -- Appendix D. Values of Important Physical Constants and Some Convenient Conversion Factors -- Appendix E. List of Symbols.

Electrical Conduction in Solid Materials
Electrical Conduction in Solid Materials

Author: J. P. Suchet

Publisher: Elsevier

Published: 2013-10-22

Total Pages: 227

ISBN-13: 1483280233

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Electrical Conduction in Solid Materials (Physicochemical Bases and Possible Applications) investigates the physicochemical bases and possible applications of electrical conduction in solid materials, with emphasis on conductors, semiconductors, and insulators. Topics range from the interatomic bonds of conductors to the effective atomic charge in conventional semiconductors and magnetic transitions in switching semiconductors. Comprised of 10 chapters, this volume begins with a description of electrical conduction in conductors and semiconductors, metals and alloys, as well as interatomic bonds and the resistivity of magnetic conductors. Subsequent chapters focus on conventional semiconductors, including intrinsic semiconductors and binary and ternary compounds; compounds containing ordered or disordered atomic magnetic moments, showing paramagnetism of ferro-, ferri-, or antiferromagnetism; and magnetic and crystallographic transitions in switching semiconductors. Organic and inorganic insulators are also considered, along with possible applications of conductors, semiconductors, and insulators. Finally, the special magnetoelectric effects and magneto-optical effects of magnetic semiconductors are analyzed. This book will be a valuable resource for students of physical chemistry.

Principles of Heat Transfer
Principles of Heat Transfer

Author: Massoud Kaviany

Publisher: John Wiley & Sons

Published: 2002

Total Pages: 1004

ISBN-13: 9780471434634

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CD-ROM contains: Equations and relations (models) for thermal circuit modeling.

PEDOT
PEDOT

Author: Andreas Elschner

Publisher: CRC Press

Published: 2010-11-02

Total Pages: 380

ISBN-13: 1420069128

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While there is information available in handbooks on polythiophene chemistry and physics, until now, few if any books have focused exclusively on the most forwardly developed electrically conductive polymer, Poly (3,4-ethylenedioxythiophene)-otherwise known as PEDOT. This resource provides full chemical, physical, and technical information about this important conducting polymer, discussing basic knowledge and exploring its technical applications. Presented information is based on information generated at universities and through academic research, as well as by industrial scientists, providing a complete picture of the experimental and the practical aspects of this important polymer.

Electronic, Magnetic, and Optical Materials, Second Edition
Electronic, Magnetic, and Optical Materials, Second Edition

Author: Pradeep Fulay

Publisher: CRC Press

Published: 2016-11-18

Total Pages: 719

ISBN-13: 1498701736

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This book integrates materials science with other engineering subjects such as physics, chemistry and electrical engineering. The authors discuss devices and technologies used by the electronics, magnetics and photonics industries and offer a perspective on the manufacturing technologies used in device fabrication. The new addition includes chapters on optical properties and devices and addresses nanoscale phenomena and nanoscience, a subject that has made significant progress in the past decade regarding the fabrication of various materials and devices with nanometer-scale features.

A Textbook of Physical Chemistry
A Textbook of Physical Chemistry

Author: A. S. Negi

Publisher: New Age International

Published: 1985

Total Pages: 992

ISBN-13: 9780852260203

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Written primarily to meet the requirements of students at the undergraduate level, this book aims for a self-learning approach. The fundamentals of physical chemistry have been explained with illustrations, diagrams, tables, experimental techniques and solved problems.

Dielectrics in Electric Fields
Dielectrics in Electric Fields

Author: Gorur Govinda Raju

Publisher: CRC Press

Published: 2017-07-28

Total Pages: 774

ISBN-13: 1498765211

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Dielectrics in Electric Fields explores the influence of electric fields on dielectric—i.e., non-conducting or insulating—materials, examining the distinctive behaviors of these materials through well-established principles of physics and engineering. Featuring five new chapters, nearly 200 new figures, and more than 800 new citations, this fully updated and significantly expanded Second Edition: Analyzes inorganic substances with real-life applications in harsh working conditions such as outdoor, nuclear, and space environments Introduces methods for measuring dielectric properties at microwave frequencies, presenting results obtained for specific materials Discusses the application of dielectric theory in allied fields such as corrosion studies, civil engineering, and health sciences Combines in one chapter coverage of electrical breakdown in gases with breakdown in micrometric gaps Offers extensive coverage of electron energy distribution—essential knowledge required for the application of plasma sciences in medical science Delivers a detailed review of breakdown in liquids, along with an overview of electron mobility, providing a clear understanding of breakdown phenomena Explains breakdown in solid dielectrics such as single crystals, polycrystalline and amorphous states, thin films, and powders compressed to form pellets Addresses the latest advances in dielectric theory and research, including cutting-edge nanodielectric materials and their practical applications Blends early classical papers that laid the foundation for much of the dielectric theory with more recent work The author has drawn from more than 55 years of research studies and experience in the areas of high-voltage engineering, power systems, and dielectric materials and systems to supply both aspiring and practicing engineers with a comprehensive, authoritative source for up-to-date information on dielectrics in electric fields.