ABSTRACT

Nanoscale science, engineering, and technology-commonly referred to collectively as nanotechnology-is believed by many to offer extraordinary economic and societal benefits. Nanotechnology is generally defined as the ability to create and use materials, devices, and systems with unique properties at the scale of approximately 1 to 100 nm. Nanotechn

chapter 1|172 pages

Basic Concepts and an Overview

chapter 2|14 pages

Micro and Nanoscale Systems

chapter 4|26 pages

Fluid Flow in Nanotubes

chapter 5|20 pages

Nanohydromechanics

chapter |12 pages

Index

chapter |2 pages

Half Title

chapter |1 pages

Title Page

chapter |1 pages

Copyright Page

chapter |2 pages

About the Authors

chapter |2 pages

Contents

chapter |2 pages

List of Abbreviations

chapter |4 pages

List of Symbols

chapter |2 pages

Preface

chapter 2|22 pages

Nanoelement Manufacturing: Self-Assembly

chapter 3|46 pages

Nanomaterials: Properties and Application

chapter 4|30 pages

Modeling and Simulation

chapter 5|36 pages

Molecular Simulation for Nanomaterials

chapter 6|30 pages

Numerical Simulation of Nanoelements

chapter |12 pages

Index

chapter |2 pages

Half Title

chapter |1 pages

Title Page

chapter |1 pages

Copyright Page

chapter |2 pages

About the Author

chapter |2 pages

Contents

chapter |4 pages

List of Abbreviations

chapter |4 pages

List of Symbols

chapter |2 pages

Preface

chapter 1|20 pages

Introduction

chapter 2|46 pages

Modeling and Simulation Techniques

chapter 3|34 pages

Inter-Atomic Relations in Carbon Nanotubes

chapter 4|50 pages

Computational Mechanics Modeling

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