[内容简介]
Research at the nanoscale and the new technologies being developed are evolving much too rapidly to provide a complete picture of the field. Instead, the second edition of this enormously popular and bestselling handbook presents a wide snapshot of the current state of the art, including basic concepts, current challenges, and advanced research results. Along with 18 revised chapters, this second edition also features 24 brand new chapters that cover such topics as applications of spintronic devices, optoelectronics, DNA-based computing, ordered carbon nanotube architectures, nanocomposities, and bio-molecular motors. It also includes a full color insert as well as numerous illustrations and references.
[目次]
Table of Contents
NANOTECHNOLOGY OVERVIEW
There's Plenty of Room at the Bottom? Richard P. Feynman
Room at the Bottom, Plenty of Tyranny at the Top; Karl Hess
The National Nanotechnology Initiative: Past, Present, Future; Mihail C. Roco
MOLECULAR AND NANOELECTRONICS
Engineering Challenges in Molecular Electronics; Gregory N. Parsons
Molecular Electronic Computing Architectures; James M. Tour and Dustin K. James
Nanoelectronic Circuit Architectures; Wolfgang Porod
Molecular Computing and Processing Platforms; Sergey Edward Lyshevski
Spin Field Effect Transistors; Supriyo Bandyopadhyay and Marc Cahay
Electron Charge and Spin Transport in Organic and Semiconductor Nanodevices: Moletronics and Spintronics; Alexandre M. Bratkovski
Nanoarchitectonics: Advances in Nanoelectronics; Kang Wang, Kosmas Galatsis, Roman Ostroumov, Mihri Ozkan, Kostantin Likharev, and Youssry Botros
Molecular Machines; Brian H. Northrop, Adam B. Braunschweig, Paula M. Mendes, William R. Dichtel, and J. Fraser Stoddart
MOLECULAR ELECTRONICS: DEVICES
Molecular Conductance Junctions: A Theory and Modeling; Vladimoro Mujica and Mark A. Ratner
Modeling Electronics at the Nanoscale; Narayan R. Aluru, Jean-Pierre Leburton, William McMahon, Umberto Ravaioloi, Slava V. Roktin, Martin Staedele, Trudy van der Straaten, Blair R. Tuttle, and Karl Hess
Resistance of a Molecule; Magnus Paulsson, Ferdows Zahid and Supriyo Datta
MANIPULATION AND ASSEMBLY
Magnetic Manipulation for the Biomedical Sciences; J.K. Fisher, L. Vicci, K. Bloom, E. Timothy O'Brien, C.W. Davis, R.M. Taylor, II, and R. Superfine
Nanoparticle manipulation by Electrostatic Forces; Michael Pycraft Hughes
Biological and Chemical-Mediated Self-Assembly of Artificial Micro and Nanostructures; S.W. Lee, R. Bashir, Won-Ju, and Kang-Won
Nanostructural Architectures from Molecular Building Blocks; Damian G. Allis and James T. Spencer
Building Block Approaches to Nonlinear and Linear Macromolecules; Stephen A. Habay and Christian E. Schafmeister
Introduction to Nanomanufacturing; Ahmed Busnaina
Textile Nanotechnologies; B. Pourdeyhimi
FUNCTIONAL STRUCTURES
Carbon Nanotubes; M. Meyyappan and Deepak Srivastava
Mechanics of Carbon Nanotubes; Dong Qian, Gregory J. Wagner, Wing Kam Liu, Min-Feng Yu, and Rodney S. Ruoff
Dendrimers-An Enabling Synthetic Science to Controlled Organic Nanostructures; D.A. Tomalia and S.A. Henderson. and M.S. Diallo
Design and Applications of Photonic Crystals; Dennis W. Prather, Ahmed S. Sharkawy, Shouyuan Shi, and Caihua Chen
Progress in Nanofluidics for Cell Biology; Todd Thorsen and Joshua S. Marcus
Carbon Nanostructures and Nanocomposites; Yanhong Hu, Zushou Hu, Clifford W. Padgett, Donald W. Brenner, and Olga A. Shenderova
Contributions of Molecular Modeling to Nanometer-Scale Science and Technology; Donald W. Brenner, O.A. Shenderova, J.D. Schall, D.A. Areshkin, S. Adiga, J.A. Harrison, and S.J. Stuart
Accelerated Design Tools for Nanophotonic Devices and Applications; James P. Durbano, Ahmed S. Sharkawy, Shouyuan Shi, Fernando E. Ortiz, and Petersen F. Curt
Nanoparticles for Drug Delivery; Meredith L. Hans and Anthony M. Lowman
Index