Principles of nanotechnology : molecular-based study of condensed matter in small systems
著者
書誌事項
Principles of nanotechnology : molecular-based study of condensed matter in small systems
World Scientific, c2005
- : hbk
- : pbk
大学図書館所蔵 全12件
  青森
  岩手
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  京都
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  鳥取
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  広島
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  香川
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  高知
  福岡
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内容説明・目次
内容説明
This invaluable book provides a pointed introduction to the fascinating subject of bottom-up nanotechnology with emphasis on the molecular-based study of condensed matter in small systems. Nanotechnology has its roots in the landmark lecture delivered by the famous Nobel Laureate physicist, Richard Feynman, on 29 December 1959 entitled “There's Plenty of Room at the Bottom.” By the mid-1980s, it had gained real momentum with the invention of scanning probe microscopes. Today, nanotechnology promises to have a revolutionary impact on the way things are designed and manufactured in the future.Principles of Nanotechnology is self-contained and unified in presentation. It may be used as a textbook by graduate students and even ambitious undergraduates in engineering, and the biological and physical sciences who already have some familiarity with quantum and statistical mechanics. It is also suitable for experts in related fields who require an overview of the fundamental topics in nanotechnology. The explanations in the book are detailed enough to capture the interest of the curious reader, and complete enough to provide the necessary background material needed to go further into the subject and explore the research literature. Due to the interdisciplinary nature of nanotechnology, a comprehensive glossary is included detailing abbreviations, chemical formulae, concepts, definitions, equations and theories.
目次
- Advances in Atomic and Molecular Nanotechnology
- Nanosystems' Intermolecular Forces and Potentials
- Thermodynamics and Statistical Mechanics of Small Systems
- Monte Carlo Simulation Methods for Nanosystems
- Molecular Dynamics Simulation Methods for Nanosystems
- Computer-Based Simulations and Optimizations for Nanosystems
- Phase Transitions in Nanosystems
- Positional Assembly of Molecules
- Molecular Self-Assembly
- Dynamic Combinatorial Chemistry
- Molecular Building Blocks -- Diamondoids.
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