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Surfaces, Interfaces, and Films for Microelectronics |  |
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Surfaces, Interfaces, and Films for Microelectronics | |
Eugene A. Irene, PhD, is Professor of Chemistry at the University of North Carolina, Chapel Hill.?Prior to that appointment, he worked in the Thomas J. Watson Research Center at IBM for ten years. Professor Irene has written more than 250 journal publications and is the author of various books, including Electronic Materials Science (Wiley). He is coeditor of Handbook of Ellipsometry and numerous scientific reviews and book chapters.
The practical, accessible independent-study guide and text on surface science fundamentals and microelectronics processes
Electronic and microelectronic materials are vital to technologies such as semiconductors, integrated circuits, magnetic alloys, insulators, and optical/display materials.? The microelectronic material surfaces, interfaces, and films play an important role in their function. Detailing fundamentals and important analytical techniques, this reference helps scientists and engineers in this rapidly growing field understand existing microelectronic applications and design new ones. After an introduction to essential key concepts, Surfaces, Interfaces, and Thin Films for Microelectronics:
Provides a thorough explanation of surface science fundamentals, covering both geometric and electronic structure, surface thermodynamics, morphology, and a sampling of surface science techniques
Discusses microelectronics processes, covering films and interfaces, electronic passivation of semiconductor-dielectric film interfaces, the Si-SiO2 interface, and other MOSFET interfaces
Includes figures, charts, exercises, and numerous examples of applications to enhance and ingrain understanding
Provides references to other resources for further study
With its accessible explanations of both fundamentals and microelectronics processes, this is the ideal self-study guide to help professionals in the electronics industry get up to speed fast. It is also an excellent text for upper-level undergraduate and graduate students taking materials science, chemistry, physics, and electrical engineering courses.
