Nanomanufacturing Handbook: 1st Edition (Hardback) book cover

Nanomanufacturing Handbook

1st Edition

Edited by Ahmed Busnaina

CRC Press

432 pages | 280 B/W Illus.

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Hardback: 9780849333262
pub: 2006-11-01
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Description

Breakthroughs in nanotechnology have been coming at a rapid pace over the past few years. This was fueled by significant worldwide investments by governments and industry. But if these promising young technologies cannot begin to show commercial viability soon, that funding is in danger of disappearing as investors lose their appetites and the economic and scientific promise of nanotechnology may not be realized. Scrutinizing the barriers to commercial scale-up of nanotechnologies, the Nanomanufacturing Handbook presents a broad survey of the research being done to bring nanotechnology out of the laboratory and into the factory.

Current research into nanotechnology focuses on the underlying science, but as this forward-looking handbook points out, the immediate need is for research into scale-up, process robustness, and system integration issues. Taking that message to heart, this book collects cutting-edge research from top experts who examine such topics as surface-programmed assembly, fabrication and applications of single-walled carbon nanotubes (SWNTs) including nanoelectronics, manufacturing nanoelectrical contacts, room-temperature nanoimprint and nanocontact technologies, nanocontacts and switch reliability, defects and surface preparation, and other innovative, application-driven initiatives. In addition to these technical issues, the author provides a survey of the current state of nanomanufacturing in the United States—the first of its kind—and coverage also reaches into patenting nanotechnologies as well as regulatory and societal issues.

With timely, authoritative coverage accompanied by numerous illustrations, the Nanomanufacturing Handbook clarifies the current challenges facing industrial-scale nanotechnologies and outlines advanced tools and strategies that will help overcome them.

Reviews

". . . provides a comprehensive overview of the techniques and problems associated with manufacturing at the nanoscale . . . provides a very comprehensive and detailed description of the state of nano manufacturing (nanofacturing) and will make a good reference for would-be molecular manufacturers." – G.C. Holt, in Nanotechnology Perceptions, March 2008, Vol. 4, No. 1

Table of Contents

Introduction to Nanomanufacturing; Ahmed Busnaina and Manish Mehta

Nanomanufacturing Challenges

Top-Down Approach

Bottom-Up Approach

Combined Top-Down and Bottom-Up Nanomanufacturing Approaches

Registration and Alignment

Reliability and Defect Control

Nanomanufacturing Industry Survey

Recommended National Priorities for the Near Term

Strategic U.S. Industry Indicators

Acknowledgement

References

Surface-Programmed Assembly for Nanomanufacturing; Seunghun Hong, Sung Young Park, Juwan Kang, Tae–Kyeong Kim, Juntae Koh, Kwang Heo, Kyung-Eun Byun, Dong Joon Lee, and Seon Namgung

Introduction

Large-Scale “Surface-Programmed Assembly”

Conclusions

Acknowledgements

References

Fabrication and Applications of Single-Walled Carbon Nanotube (SWNT) Fabrics; Darren K. Brock, Jonathan W. Ward, Claude Bertin, Brent M. Segal, and Thomas Rueckes

Introduction

Fabrication of SWNT Fabrics

Applications of SWNT Fabrics

Conclusion

Acknowledgements

References

Controlled Synthesis of Carbon Nanotubes Using Chemical Vapor Deposition Methods; Yung Joon Jung

Introduction

Carbon Nanotube Synthesis

Building Organized MWNT Architectures

Mechanism of Substrate Site Selectivity of Carbon Nanotubes

Building Controlled SWNT Networks on a Large Scale

Fabrication of Hierarchically Branched Carbon Nanotubes Using Controlled Nanochannels in Templates

Acknowledgements

References

Reconfigurable CMOS Electronic Microarray System for the Assisted Self-Assembly of Higher-Order Nanostructures; Dietrich Dehlinger, Benjamin Sullivan, Sadik Esener, Paul Swanson, Dalibor Hodko, and Michael J. Heller

Introduction

CMOS Electronic Microarrays and Controller Systems

Transport and Addressing of Molecules, Nanostructures, and Microstructures

Fabrication of Multiple-Layered Nanoparticle Structures Using CMOS Microarrays

Strategy for Assisted Self-Assembly and Hierarchical Organization

Conclusions and Future Goals

References

Manufacturing Electrical Contacts to Nanostructures; Loucas Tsakalakos

Introduction

Direct Synthesis

Post Synthesis

Molecular Electronics

Quantum Dots

Quality of Contacts

Conclusions

References

Nanofabrication Techniques with High-Resolution Molded Rubber Stamps; Etienne Menard and John Rogers

Fabricating Stamps, Molds, Conformable Photomasks, and Dry Transfer Tools

Two- and Three-Dimensional Nanofabrication with Conformable Photomasks

Printing of Polymers and Metal 2-D and 3-D Structures with Rubber Stamps

Dry Transfer Printing of Inorganic Semiconductor Micro/Nanostructures and Carbon Nanotubes

Conclusion and Future Outlook

References

Room-Temperature Nanoimprint and Nanocontact Technologies; Ken-ichiro Nakamatsu and Shinji Matsui

Introduction

Room-Temperature Nanoimprint Lithography

Room-Temperature Nanocontact Printing

Summary

References

Antistiction Layers for Nano Imprinting Lithography; Nam-Goo Cha and Jin-Goo Park

Introduction

Antistiction Layer for NIL

Fabrication Methods of Antistiction Layers

Characterizations of Antistiction Films

Conclusions and Prospects

Acknowledgement

References

Nanocontacts and Switch Reliability; George G. Adams and Nicol E. McGruer

Introduction

Hertz Contact

Physical Basis of Adhesion

Nano-Contact with Adhesion

Elastoplastic and Plastic Contacts

Rough Surface Nanocontacts

Micromechanical Switches

Recommendations for Future Research

References

Nanoscale Defects and Surface Preparation in Nanomanufacturing; Ahmed Busnaina and Kaveh Bakhtari

Introduction

Physical Removal Using Acoustic Streaming

Experimental and Analytical

Summary

References

Improved Carbon Materials for Nanomanufacturing Applications; Patrick Lemoine, John Paul Quinn, Pagona Papakonstantinou, Paul Maguire, and James McLaughlin

Introduction

Weakness and Strength in Carbon Materials

Nanopatterning and Processing of Carbon Materials

Conclusions

Acknowledgements

References

Nanomanufacturing Processes Using Polymeric Materials; Carol Barry, Julie Chen, and Joey Mead

Internal (Polymer–Polymer) Interface

External (Polymer–Tool) Interface

References

Patterned Electrospray Fiber Structures; Phil Gibson and Heidi Schreuder-Gibson

Introduction

Background

Approach

Pore Size and Air Flow Resistance

Aerosol Particle Filtration

Strength

Conclusions

Acknowledgements

References

Patenting Nanotechnology; Rouget F. (Ric) Henschel and Stephen B. Maebius

Introduction

Federal Support for Nanotechnology

Patent Basics

Explosive Growth of Nanotechnology Patents

Conclusion

References

Leaving the Laboratory: Regulatory and Societal Issues Confronting Nanotechnology Commercialization; Christopher J. Bosso, Jacqueline A. Isaacs, William D. Kay, and Ronald L. Sandler

Questions about Capacity

Intellectual Property

Regulatory Frameworks and Institutions

Complexity and Public Uncertainty

Why This All Matters

Other Sources

References

R&D Activities for Nanoscale Manufacturing Processes and Enabling Equipment in Korea; Chang-Soo Han, Jun-Hyuk Choi, Hak-Joo Lee, Jae-Jong Lee, Doo-Sun Choi, Won-Seok Chang, Jun-Ho Jeong, Eung-Sug Lee, Kyung-Hyun Whang, and Sang-Rok Lee

Introduction

R&D Goals of CNMM

R&D Activities

Conclusion

Acknowledgements

References

Index

Subject Categories

BISAC Subject Codes/Headings:
TEC021000
TECHNOLOGY & ENGINEERING / Material Science
TEC027000
TECHNOLOGY & ENGINEERING / Nanotechnology & MEMS