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Handbook of Nanofabrication

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Many of the devices and systems used in modern industry are becoming progressively smaller and have reached the nanoscale domain. Nanofabrication aims at building nanoscale structures, which can act as components, devices, or systems, in large quantities at potentially low cost. Nanofabrication is vital to all nanotechnology fields, especially for the realization of nanotechnology that involves the traditional areas across engineering and science.

  • Includes chapters covering the most important Nanofabrication techniques, which aids comprehensive understanding of the latest manufacturing technologies encountered in the field of nano-level manufacturing which is essential for preparing for advanced study and application in nanofabrication techniques by enabling thorough understanding of the entire nanofabrication process as it applies to advanced electronic and related manufacturing technologies.
  • Each chapter covers a nanofabrication technique comprehensively, which allows the reader to learn to produce nanometer-level products as well as collect, process, and analyze data, improve process parameters, and how to assist engineers in research, development and manufacture of the same.

  • Includes contributions from recognized experts from around the globe, making the reader aware of variations in similar techniques applied in different geographical locations and is better positioned to establish all possible global applications.

Author(s): Gary Wiederrecht
Publisher: Academic Press
Year: 2009

Language: English
Pages: 307
Tags: Специальные дисциплины;Наноматериалы и нанотехнологии;Технологии получения наноматериалов и наноструктур;Справочники, каталоги, таблицы

COVER......Page 1
HANDBOOK OF NANOFABRICATION......Page 4
COPYRIGHT PAGE......Page 5
CONTENTS......Page 6
EDITORIAL ADVISORY BOARD......Page 7
PREFACE......Page 8
CONTRIBUTORS......Page 10
1.1 Introduction......Page 12
1.2 Fundamentals of Directing Nanoscale Assembly at Surfaces......Page 13
1.3 Patterned Bonding between Molecules and Surfaces......Page 16
1.4 Guiding Supramolecular Assembly......Page 19
1.5 Templated Physisorption: Molecular Organization via Self- Assembled Inclusion Networks......Page 31
1.6 Covalently Bonded Structures: Surface-Confined Polymerization......Page 42
1.7 Conclusions and Outlook......Page 58
Acknowledgments......Page 59
2.1 Introduction......Page 68
2.2 Synthesis and Biofunctionalization of Nanoparticles......Page 69
2.3 Interactions between Biofunctionalized Nanoparticles......Page 73
2.4 Assembly of Ordered Nanoparticle Superstructures......Page 76
2.5 Characterization......Page 89
2.6 Summary and Outlook......Page 94
3.1 Introduction......Page 102
3.2 Surface Chirality following Molecular Adsorption......Page 104
3.3 Kinetics of Desorption Processes......Page 119
3.4 Chiral Heterogeneous Catalysis......Page 122
3.5 Conclusions......Page 126
4.1 Basics of Electron Beam Lithography......Page 132
4.2 Applications to Nanostructures......Page 143
4.3 Proximity Correction: Software and Hardware Solutions......Page 151
4.4 Summary......Page 154
Acknowledgments......Page 156
5.1 Introduction......Page 160
5.2 Top-Down Nanopatterning Options......Page 163
5.3 Building Blocks for UV Nanoimprint Lithography......Page 170
5.4 UV Nanoimprint Lithography Process Results......Page 184
5.5 Summary and Future Directions......Page 189
Acknowledgments......Page 190
6.1 Introduction......Page 194
6.2 Drop on Demand Ink-Jet Printing of Functional Materials......Page 195
6.3 Tools and Materials for Piezoelectric DOD Ink-Jet Printing......Page 199
6.4 Applications of Ink-jet Printing of Functional Materials......Page 204
6.5 Self-Aligned Ink-Jet Printing of Organic Transistors......Page 207
6.6 Fully Downscaled, Self-Aligned Printed Polymer Thin-Film Transistors......Page 212
6.7 Conclusions and Outlook......Page 217
Acknowledgments......Page 218
7.1 Introduction......Page 220
7.3 Multivalency at Interfaces and the Molecular Printboard......Page 221
7.4 Immobilization of Multivalent Guests on the Molecular Printboard......Page 225
7.5 Writing Patterns of Molecules on the Molecular Printboard......Page 228
7.6 Stepwise Assembly of Complex Structures and Stimulus-Dependent Desorption on/from the Molecular Printboard......Page 233
7.7 Assemblies of NPs and 2D and 3D Nanofabrication on the Molecular Printboard......Page 244
7.8 Probing Single-Molecule Interaction by AFM......Page 250
7.9 Conclusions......Page 252
8.1 Introduction......Page 258
8.2 Natural Systems......Page 262
8.3 Artificial Systems......Page 263
8.4 Hybrid Systems......Page 289
8.5 Artificial Nanomachines in Device-Like Settings......Page 291
Acknowledgments......Page 296
Index......Page 302