Description
Introduction to Nanoelectronics
Science, Nanotechnology, Engineering, and Applications
Authors: Mitin Vladimir V., Kochelap Viatcheslav A., Stroscio Michael A.
A comprehensive textbook on nanoelectronics covering the underlying physics, nanostructures, nanomaterials and nanodevices.
Language: EnglishSubject for Introduction to Nanoelectronics:
Approximative price 70.08 €
In Print (Delivery period: 14 days).
Add to cart the print on demand of Mitin Vladimir V., Kochelap Viatcheslav A., Stroscio Michael A.
Introduction to Nanoelectronics
Publication date: 03-2012
Support: Print on demand
Publication date: 03-2012
Support: Print on demand
Approximative price 109.04 €
Subject to availability at the publisher.
Add to cart the print on demand of Mitin Vladimir V., Kochelap Viatcheslav A., Stroscio Michael A.
Introduction to Nanoelectronics
Publication date: 12-2007
Support: Print on demand
Publication date: 12-2007
Support: Print on demand
Description
/li>Contents
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Increasing miniaturization of devices, components, and integrated systems requires developments in the capacity to measure, organize, and manipulate matter at the nanoscale. This textbook, first published in 2007, is a comprehensive, interdisciplinary account of the technology and science that underpin nanoelectronics, covering the underlying physics, nanostructures, nanomaterials, and nanodevices. Without assuming prior knowledge of quantum physics, this book provides a unifying framework for the basic ideas needed to understand the recent developments in the field. Numerous illustrations, homework problems and interactive Java applets help the student to appreciate the basic principles of nanotechnology, and to apply them to real problems. Written in a clear yet rigorous and interdisciplinary manner, this textbook is suitable for advanced undergraduate and graduate students in electrical and electronic engineering, nanoscience, materials, bioengineering, and chemical engineering.
Preface; Notations; 1. Towards the nanoscale; 2. Particles and waves; 3. Wave mechanics; 4. Materials for nanoelectronics; 5. Growth, fabrication, and measurement techniques for nanostructures; 6. Electron transport in semiconductors and nanostructures; 7. Electrons in traditional low-dimensional structures; 8. Nanostructure devices; Index.
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