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Nanomanufacturing Handbook<br />
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Scrutinizing the prevalent hurdles to commercial scale-up of nanotechnologies, <br />
the Nanomanufacturing Handbook presents a broad survey of the research being <br />
done to bring nanotechnology out of the laboratory and into the factory. The <br />
book collects cutting-edge research from top experts who examine such topics as <br />
surface-programmed assembly, fabrication and applications of carbon nanotubes, <br />
manufacturing nanoelectrical contacts, room-temperature nanoimprint and <br />
nanocontact technologies, nanocontacts and switch reliability, defects and <br />
surface preparation, and other innovative, application-driven initiatives. It <br />
also includes a unique survey of the current state of nanomanufacturing in the <br />
US.<br />
<br />
Table of Contents<br />
Introduction to Nanomanufacturing; Ahmed Busnaina and Manish Mehta<br />
Nanomanufacturing Challenges<br />
Top-Down Approach<br />
Bottom-Up Approach<br />
Combined Top-Down and Bottom-Up Nanomanufacturing Approaches<br />
Registration and Alignment<br />
Reliability and Defect Control<br />
Nanomanufacturing Industry Survey<br />
Recommended National Priorities for the Near Term<br />
Strategic U.S. Industry Indicators<br />
Acknowledgement<br />
References<br />
<br />
Surface-Programmed Assembly for Nanomanufacturing<br />
Introduction<br />
Large-Scale “Surface-Programmed Assembly”<br />
Conclusions<br />
Acknowledgements<br />
References<br />
<br />
Fabrication and Applications of Single-Walled Carbon Nanotube (SWNT)Fabrics<br />
Rueckes<br />
Introduction<br />
Fabrication of SWNT Fabrics<br />
Applications of SWNT Fabrics<br />
Conclusion<br />
Acknowledgements<br />
References<br />
<br />
Controlled Synthesis of Carbon Nanotubes Using Chemical Vapor Deposition Methods<br />
Introduction<br />
Carbon Nanotube Synthesis<br />
Building Organized MWNT Architectures<br />
Mechanism of Substrate Site Selectivity of Carbon Nanotubes<br />
Building Controlled SWNT Networks on a Large Scale<br />
Fabrication of Hierarchically Branched Carbon Nanotubes Using Controlled <br />
Nanochannels in Templates<br />
Acknowledgements<br />
References<br />
<br />
Reconfigurable CMOS Electronic Microarray System for the Assisted Self-Assembly <br />
of Higher-Order Nanostructures<br />
Introduction<br />
CMOS Electronic Microarrays and Controller Systems<br />
Transport and Addressing of Molecules, Nanostructures, and Microstructures<br />
Fabrication of Multiple-Layered Nanoparticle Structures Using CMOS Microarrays<br />
Strategy for Assisted Self-Assembly and Hierarchical Organization<br />
Conclusions and Future Goals<br />
References<br />
<br />
Manufacturing Electrical Contacts to Nanostructures<br />
Introduction<br />
Direct Synthesis<br />
Post Synthesis<br />
Molecular Electronics<br />
Quantum Dots<br />
Quality of Contacts<br />
Conclusions<br />
References<br />
<br />
Nanofabrication Techniques with High-Resolution Molded Rubber Stamps<br />
Fabricating Stamps, Molds, Conformable Photomasks, and Dry Transfer Tools<br />
Two- and Three-Dimensional Nanofabrication with Conformable Photomasks<br />
Printing of Polymers and Metal 2-D and 3-D Structures with Rubber Stamps<br />
Dry Transfer Printing of Inorganic Semiconductor Micro/Nanostructures and Carbon <br />
Nanotubes<br />
Conclusion and Future Outlook<br />
References<br />
<br />
Room-Temperature Nanoimprint and Nanocontact Technologies; Ken-ichiro Nakamatsu <br />
and Shinji Matsui<br />
Introduction<br />
Room-Temperature Nanoimprint Lithography<br />
Room-Temperature Nanocontact Printing<br />
Summary<br />
References<br />
<br />
Antistiction Layers for Nano Imprinting Lithography; Nam-Goo Cha and Jin-Goo <br />
Park<br />
Introduction<br />
Antistiction Layer for NIL<br />
Fabrication Methods of Antistiction Layers<br />
Characterizations of Antistiction Films<br />
Conclusions and Prospects<br />
Acknowledgement<br />
References<br />
<br />
Nanocontacts and Switch Reliability<br />
Introduction<br />
Hertz Contact<br />
Physical Basis of Adhesion<br />
Nano-Contact with Adhesion<br />
Elastoplastic and Plastic Contacts<br />
Rough Surface Nanocontacts<br />
Micromechanical Switches<br />
Recommendations for Future Research<br />
References<br />
<br />
Nanoscale Defects and Surface Preparation in Nanomanufacturing<br />
Introduction<br />
Physical Removal Using Acoustic Streaming<br />
Experimental and Analytical<br />
Summary<br />
References<br />
<br />
Improved Carbon Materials for Nanomanufacturing Applications<br />
Introduction<br />
Weakness and Strength in Carbon Materials<br />
Nanopatterning and Processing of Carbon Materials<br />
Conclusions<br />
Acknowledgements<br />
References<br />
<br />
Nanomanufacturing Processes Using Polymeric Materials<br />
Internal (Polymer–Polymer) Interface<br />
External (Polymer–Tool) Interface<br />
References<br />
<br />
Patterned Electrospray Fiber Structures<br />
Introduction<br />
Background<br />
Approach<br />
Pore Size and Air Flow Resistance<br />
Aerosol Particle Filtration<br />
Strength<br />
Conclusions<br />
Acknowledgements<br />
References<br />
<br />
Patenting Nanotechnology<br />
Introduction<br />
Federal Support for Nanotechnology<br />
Patent Basics<br />
Explosive Growth of Nanotechnology Patents<br />
Conclusion<br />
References<br />
<br />
Leaving the Laboratory: Regulatory and Societal Issues Confronting <br />
Nanotechnology Commercialization<br />
Questions about Capacity<br />
Intellectual Property<br />
Regulatory Frameworks and Institutions<br />
Complexity and Public Uncertainty<br />
Why This All Matters<br />
Other Sources<br />
References<br />
<br />
R&D Activities for Nanoscale Manufacturing Processes and Enabling Equipment in <br />
Korea<br />
Introduction<br />
R&D Goals of CNMM<br />
R&D Activities<br />
Conclusion<br />
Acknowledgements<br />
References<br />
Index<br />
<br />
Product Details<br />
<br />
* ISBN: 0849333261<br />
* ISBN-13: 9780849333262<br />
* Format: Hardcover, 408pp<br />
* Publisher: CRC Press<br />
* Pub. Date: October 2006<br />
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