MARC Record from marc_columbia

LEADER: 06278cam a2200697Ma 4500
001 13725503
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006 m o d
007 cr cn|||||||||
008 111102s2011 ne a ob 001 0 eng d
010 $a 2012453311
035 $a(OCoLC)ocn763161421
035 $a(NNC)13725503
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019 $a802251510$a828072611$a961883165$a988716818$a999508876$a1103282422$a1202550114$a1240532292
020 $a9781437734720$q(electronic bk.)
020 $a1437734723$q(electronic bk.)
020 $a1437734715
020 $a9781437734713
020 $z9781437734713
035 $a(OCoLC)763161421$z(OCoLC)802251510$z(OCoLC)828072611$z(OCoLC)961883165$z(OCoLC)988716818$z(OCoLC)999508876$z(OCoLC)1103282422$z(OCoLC)1202550114$z(OCoLC)1240532292
050 4 $aT174.7$b.N354 2011eb
072 7 $aTEC$x064000$2bisacsh
082 04 $a681/.25$223
049 $aZCUA
245 00 $aNano-optoelectronic sensors and devices :$bnanophotonics from design to manufacturing /$cedited by Ning Xi, King Wai Chiu Lai.
260 $aAmsterdam ;$aBoston :$bElsevier/William Andrew,$c2011.
300 $a1 online resource (xviii, 249 pages) :$billustrations.
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
490 1 $aMicro & nano technologies series
504 $aIncludes bibliographical references and index.
588 0 $aPrint version record.
505 0 $aFront cover; Nano-Optoelectronic Sensors and Devices:Nanophotonics from Design toManufacturing; Copyright; Table of Contents; Preface; Acknowledgments; About the Editors; List of Contributors; Chapter 1. Introduction; 1.1 Overview; 1.2 Impact of Nanomaterials; 1.3 Challenges and Difficulties in Manufacturing Nanomaterials-Based Devices; 1.3.1 Role of Microfluidics; 1.3.2 Role of Robotic Nanoassembly; 1.4 Summary; References; Chapter 2. Nanomaterials Processing for Device Manufacturing; 2.1 Introduction; 2.2 Characteristics of Carbon Nanotubes
505 8 $a2.3 Classification of Carbon Nanotubes using Microfluidics2.3.1 Dielectrophoretic Phenomenon on CNTs; 2.3.2 Experimental Results: Separation of Semiconducting CNTs; 2.4 Deposition of CNTs by Microrobotic Workstation; 2.5 Summary; References; Chapter 3. Design and Generation ofDielectrophoretic Forcesfor Manipulating CarbonNanotubes; 3.1 Overview; 3.2 Dielectrophoretic Force Modeling; 3.2.1 Modeling of Electrorotation for Nanomanipulation; 3.2.2 Dynamic Modeling of Rotational Motion of Carbon Nanotubes for Intelligent Manufacturing of CNT-Based Devices
505 8 $a3.2.3 Dynamic Effect of Fluid Medium on Nano Particles by Dielectrophoresis3.3 Theory for Microelectrode and Electric Field Design for Carbon Nanotube Applications; 3.3.1 Microelectrode Design; 3.3.2 Theory for Microelectrode Design; 3.4 Electric Field Design; 3.5 Carbon Nanotubes Application-Simulation Results; 3.5.1 Dielectrophoretic Force: Simulation Results; 3.5.2 Electrorotation (Torque): Simulation Results; 3.5.3 Rotational Motion of Carbon Nanotubes: Simulation Results; 3.6 Summary; References; Chapter 4. Atomic ForceMicroscope-Based Nanorobotic System for Nanoassembly
505 8 $a4.1 Introduction to AFM and Nanomanipulation4.1.1 AFM's Basic Principle; 4.1.2 Imaging Mode of AFM; 4.1.3 AFM-Based Nanomanipulation; 4.2 AFM-Based Augmented Reality System; 4.2.1 Principle for 3D Nanoforce Feedback; 4.2.2 Principle for Real-Time Visual Feedback Generation; 4.2.3 Experimental Testing and Discussion; A. Nanomanipulation with Augmented Reality System; B. Discussion: Limitations of Augmented Reality System; 4.3 Augmented Reality System Enhanced by Local Scan; 4.3.1 Local Scan Mechanism for Nanoparticle; 4.3.2 Local Scan Mechanism for Nanorod
505 8 $a4.3.3 Nanomanipulation with Local Enhanced Augmented Reality SystemA. Manipulation of Nanoparticles; B. Manipulation of Nanorods; 4.4 CAD-Guided Automated Nanoassembly; 4.5 Modeling of Nanoenvironments; 4.6 Automated Manipulation of CNT; 4.7 Summary; References; Chapter 5. On-Chip Band Gap Engineering of Carbon Nanotubes; 5.1 Introduction; 5.2 Quantum Electron Transport Model; 5.2.1 Nonequilibrium Green's Functions; 5.2.2 Poisson's Equation and Self-Consistent Algorithm; 5.3 Electrical Breakdown Controller of a CNT; 5.3.1 Extended Kalman Filter for Fault Detection
520 $aNanophotonics has emerged as a major technology and applications domain, exploiting the interaction of light-emitting and light-sensing nanostructured materials. These devices are lightweight, highly efficient, low on power consumption, and are cost effective to produce. The authors of this book have been involved in pioneering work in manufacturing photonic devices from carbon nanotube (CNT) nanowires and provide a series of practical guidelines for their design and manufacture, using processes such as nano-robotic manipulation and assembly methods. They also introduce the design and opera.
650 0 $aOptical detectors.
650 0 $aOptoelectronic devices.
650 0 $aNanotechnology.
650 0 $aNanophotonics.
650 6 $aDétecteurs optiques.
650 6 $aDispositifs optoélectroniques.
650 6 $aNanophotonique.
650 7 $aTECHNOLOGY & ENGINEERING$xSensors.$2bisacsh
650 7 $aNanophotonics.$2fast$0(OCoLC)fst01744190
650 7 $aNanotechnology.$2fast$0(OCoLC)fst01032639
650 7 $aOptical detectors.$2fast$0(OCoLC)fst01046682
650 7 $aOptoelectronic devices.$2fast$0(OCoLC)fst01046908
655 0 $aElectronic books.
655 4 $aElectronic books.
700 1 $aXi, Ning.$4edt
700 1 $aLai, King Wai Chiu.$4edt
776 08 $iPrint version:$tNano-optoelectronic sensors and devices.$b1st ed.$dAmsterdam ; Boston : William Andrew, 2012$z9781437734713$w(OCoLC)731925463
830 0 $aMicro & nano technologies.
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio13725503$zACADEMIC - Electronics & Semiconductors
852 8 $blweb$hEBOOKS