This one-stop reference assembles cutting-edge research in nanofabrication technology and explores myriad applications that the technology has enabled. It examines the historical evolution and emerging trends of nanofabrication and supplies an analytical understanding of some of the most important underlying technologies, with an emphasis on graphene, carbon nanotubes (CNTs), and nanowires. Featuring contributions from experts from academia and industry, this is a valuable resource for nanofabrication professionals, researchers, and graduate students, as well as for investors who want an overview of the current nanofabrication landscape.…mehr
This one-stop reference assembles cutting-edge research in nanofabrication technology and explores myriad applications that the technology has enabled. It examines the historical evolution and emerging trends of nanofabrication and supplies an analytical understanding of some of the most important underlying technologies, with an emphasis on graphene, carbon nanotubes (CNTs), and nanowires. Featuring contributions from experts from academia and industry, this is a valuable resource for nanofabrication professionals, researchers, and graduate students, as well as for investors who want an overview of the current nanofabrication landscape.
Jim Morris is an electrical and computer engineering professor at Portland State University, Oregon and is an IEEE fellow. Dr. Morris has served as treasurer of the IEEE Components Packaging and Manufacturing Technology (CPMT) Society (1991-1997), BoG member (1996-1998, 2011-2013), VP for conferences (1998-2003), distinguished lecturer (2000-present), CPMT Transactions associate editor (1998-present), and IEEE Nanotechnology Council (NTC) representative (2007-2012), and won the 2005 CPMT David Feldman Outstanding Contribution Award. He also serves as the NTC VP for conferences (2013-2014) and awards chair (2011-2013). He has edited or co-authored five books on electronics packaging, including one on nanopackaging. Krzysztof (Kris) Iniewski manages R&D at Redlen Technologies, Inc., a startup company in Vancouver, Canada. He is also a president of CMOS Emerging Technologies, an organization of high-tech events covering communications, microsystems, optoelectronics, and sensors. Dr. Iniewski has held numerous faculty and management positions at the University of Toronto, University of Alberta, SFU, and PMC-Sierra, Inc. He has published more than 100 research papers in international journals and conferences. He holds 18 international patents granted in the United States, Canada, France, Germany, and Japan. He is a frequent invited speaker, has consulted for multiple organizations internationally, and has written and edited several books.
Inhaltsangabe
Carbon Nanotubes: From Electrodynamics to Signal Propagation Models. Quasi-Particle Electronic Structure of Pristine and Hydrogenated Graphene on Weakly Interacting Hexagonal Boron Nitride Substrates. On the Possibility of Observing Tunable Laser-Induced Bandgaps in Graphene. Transparent and Flexible Carbon Nanotube Electrodes for Organic Light-Emitting Diodes. Direct Graphene Growth on Dielectric Substrates. Aligned Carbon Nanotubes for Interconnect Application. Monolithic Integration of Carbon Nanotubes and CMOS. Applications of Carbon Nanotubes in Biosensing and Nanomedicine. Synthesis of Higher Diamondoids by Pulsed Laser Ablation Plasmas in Supercritical Fluids. Molecular Lithography Using DNA Nanostructures. CMOS-Compatible Nanowire Biosensors. Trace Explosive Sensor Based on Titanium Oxide-B Nanowires. Properties of Different Types of Protective Layers on Silver Metallic Nanoparticles for Ink-Jet Printing Technique. Fabrication of Nanostructured Thin Films Using Microreactors. Index.
Carbon Nanotubes: From Electrodynamics to Signal Propagation Models. Quasi-Particle Electronic Structure of Pristine and Hydrogenated Graphene on Weakly Interacting Hexagonal Boron Nitride Substrates. On the Possibility of Observing Tunable Laser-Induced Bandgaps in Graphene. Transparent and Flexible Carbon Nanotube Electrodes for Organic Light-Emitting Diodes. Direct Graphene Growth on Dielectric Substrates. Aligned Carbon Nanotubes for Interconnect Application. Monolithic Integration of Carbon Nanotubes and CMOS. Applications of Carbon Nanotubes in Biosensing and Nanomedicine. Synthesis of Higher Diamondoids by Pulsed Laser Ablation Plasmas in Supercritical Fluids. Molecular Lithography Using DNA Nanostructures. CMOS-Compatible Nanowire Biosensors. Trace Explosive Sensor Based on Titanium Oxide-B Nanowires. Properties of Different Types of Protective Layers on Silver Metallic Nanoparticles for Ink-Jet Printing Technique. Fabrication of Nanostructured Thin Films Using Microreactors. Index.
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