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Advances in nanoengineering...

Advances in nanoengineering [electronics, materials, assembly

Davies, A. G. (A. Giles)

Thompson, J. M. T.

Imperial College Press c2007

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monografia Rebiun04311670 https://catalogo.rebiun.org/rebiun/record/Rebiun04311670 m o u cr cn| 080313s2007 enka ob 001 0 eng d 9781848160002 1848160003 1860947514 9781860947513 UPVA 997911500303706 UAM 991008077193704211 UPM 991005762963804212 CBUC 991010889767506709 CBUC 991001003943306712 UPCT u234306 E7B. eng. E7B. OCLCQ. NT. YDXCP. WAU. IDEBK. STF. OCLCQ. UNAV 620.5 22 Advances in nanoengineering Recurso electrónico] electronics, materials, assembly editors, A.G. Davies, J.M.T. Thompson London Imperial College Press Singapore Hackensack, NJ Distributed by World Scientific Pub. c2007 London Singapore Hackensack, NJ London Imperial College Press Singapore Hackensack, NJ Distributed by World Scientific Pub. xii, 315 p. il., some col xii, 315 p. EBSCO Academic eBook Collection Complete Royal Society series on advances in science v. 3 Philosophical transactions. Series A, Mathematical, physical, and engineering sciences Incluye referencias bibliográficas e índice 1. The shape of carbon: novel materials for the 21st century / Humberto Terrones and Mauricio Terrones. 1. Introduction. 2. New carbon nanostructures: fullerenes, carbon onions, nanotubes, etc. 3. The future of carbon nanostructures: applications and emerging technologies. 4. Conclusions and future work -- 2. Inorganic nanowires / Caterina Ducati. 1. Introduction. 2. Synthesis of high aspect ratio inorganic nanostructures. 3. Outlook -- 3. Multilayered materials: a palette for the materials artist / Jon M. Molina-Aldareguia and Stephen J. Lloyd. 1. Introduction. 2. Multilayers. 3. Electron microscopy. 4. Hard coatings. 5. Metallic magnetic multilayers. 6. Conclusion and future developments -- 4. Nature as chief engineer / Simon R. Hall. 1. Nature inspires engineering. 2. Nature becomes engineering. 3. Engineering nature -- 5. Supramolecular chemistry: the bottom-up approach to nanoscale systems / Philip A. Gale. 1. Introduction. 2. Molecular recognition. 3. Self-assembly. 4. Self-assembly with covalent modification. 5. Supramolecular approaches to molecular machines. 6. Conclusion -- 6. Molecular self-assembly: a toolkit for engineering at the nanometer scale / Christoph Wälti. 1. Introduction. 2. Functionalized surfaces. 3. DNA-based branched complexes. 4. Manipulation of DNA by electric fields. 5. Concluding remarks and future directions -- 7. Exploring tunnel transport through protein at the molecular level / Jason J. Davis ... [et al.]. 1. Introduction. 2. Molecular electronics. 3. Assembling proteins at electroactive surfaces. 4. Protein tunnel transport probed in an STM junction. 5. Assaying protein conductance in CP-AFM configurations. 6. Conclusions -- 8. Two frontiers of electronic engineering: size and frequency / John Cunningham. 1. Introduction: size and frequency limits for modern electronic systems. 2. Single electronics. 3. Picosecond electronics. 4. Future prospects -- 9. Erasable electrostatic lithography to fabricate quantum devices / Rolf Crook. 1. Quantum devices. 2. Scanning probe lithographic techniques. 3. Erasable electrostatic lithography. 4. Quantum devices and scanning probes -- 10. Ultrafast nanomagnets: seeing data storage in a new light / Robert J. Hicken. 1. Introduction. 2. What makes a magnet? 3. How are nanomagnets different? 4. Recording technology and speed bottlenecks. 5. Observing ultrafast magnetization dynamics. 6. Harnessing precession. 7. Optical modification of the spontaneous magnetization. 8. Future trends -- 11. Near-field microscopy: throwing light on the nanoworld / David Richards. 1. Introduction. 2. Aperture-SNOM. 3. Apertureless near-field microscopy: the promise of true nanometer-resolution optical imaging. 4. Tip-enhanced spectroscopy. 5. Future developments -- 12. Small things bright and beautiful: single molecule fluorescence detection / Mark A. Osborne. 1. Introduction. 2. Detection modalities. 3. Outlook Forma de acceso: World Wide Web Davies, A. G. A. Giles) Thompson, J. M. T.

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monografia Rebiun04311670 https://catalogo.rebiun.org/rebiun/record/Rebiun04311670 m o u cr cn| 080313s2007 enka ob 001 0 eng d 9781848160002 1848160003 1860947514 9781860947513 UPVA 997911500303706 UAM 991008077193704211 UPM 991005762963804212 CBUC 991010889767506709 CBUC 991001003943306712 UPCT u234306 E7B. eng. E7B. OCLCQ. NT. YDXCP. WAU. IDEBK. STF. OCLCQ. UNAV 620.5 22 Advances in nanoengineering Recurso electrónico] electronics, materials, assembly editors, A.G. Davies, J.M.T. Thompson London Imperial College Press Singapore Hackensack, NJ Distributed by World Scientific Pub. c2007 London Singapore Hackensack, NJ London Imperial College Press Singapore Hackensack, NJ Distributed by World Scientific Pub. xii, 315 p. il., some col xii, 315 p. EBSCO Academic eBook Collection Complete Royal Society series on advances in science v. 3 Philosophical transactions. Series A, Mathematical, physical, and engineering sciences Incluye referencias bibliográficas e índice 1. The shape of carbon: novel materials for the 21st century / Humberto Terrones and Mauricio Terrones. 1. Introduction. 2. New carbon nanostructures: fullerenes, carbon onions, nanotubes, etc. 3. The future of carbon nanostructures: applications and emerging technologies. 4. Conclusions and future work -- 2. Inorganic nanowires / Caterina Ducati. 1. Introduction. 2. Synthesis of high aspect ratio inorganic nanostructures. 3. Outlook -- 3. Multilayered materials: a palette for the materials artist / Jon M. Molina-Aldareguia and Stephen J. Lloyd. 1. Introduction. 2. Multilayers. 3. Electron microscopy. 4. Hard coatings. 5. Metallic magnetic multilayers. 6. Conclusion and future developments -- 4. Nature as chief engineer / Simon R. Hall. 1. Nature inspires engineering. 2. Nature becomes engineering. 3. Engineering nature -- 5. Supramolecular chemistry: the bottom-up approach to nanoscale systems / Philip A. Gale. 1. Introduction. 2. Molecular recognition. 3. Self-assembly. 4. Self-assembly with covalent modification. 5. Supramolecular approaches to molecular machines. 6. Conclusion -- 6. Molecular self-assembly: a toolkit for engineering at the nanometer scale / Christoph Wälti. 1. Introduction. 2. Functionalized surfaces. 3. DNA-based branched complexes. 4. Manipulation of DNA by electric fields. 5. Concluding remarks and future directions -- 7. Exploring tunnel transport through protein at the molecular level / Jason J. Davis ... [et al.]. 1. Introduction. 2. Molecular electronics. 3. Assembling proteins at electroactive surfaces. 4. Protein tunnel transport probed in an STM junction. 5. Assaying protein conductance in CP-AFM configurations. 6. Conclusions -- 8. Two frontiers of electronic engineering: size and frequency / John Cunningham. 1. Introduction: size and frequency limits for modern electronic systems. 2. Single electronics. 3. Picosecond electronics. 4. Future prospects -- 9. Erasable electrostatic lithography to fabricate quantum devices / Rolf Crook. 1. Quantum devices. 2. Scanning probe lithographic techniques. 3. Erasable electrostatic lithography. 4. Quantum devices and scanning probes -- 10. Ultrafast nanomagnets: seeing data storage in a new light / Robert J. Hicken. 1. Introduction. 2. What makes a magnet? 3. How are nanomagnets different? 4. Recording technology and speed bottlenecks. 5. Observing ultrafast magnetization dynamics. 6. Harnessing precession. 7. Optical modification of the spontaneous magnetization. 8. Future trends -- 11. Near-field microscopy: throwing light on the nanoworld / David Richards. 1. Introduction. 2. Aperture-SNOM. 3. Apertureless near-field microscopy: the promise of true nanometer-resolution optical imaging. 4. Tip-enhanced spectroscopy. 5. Future developments -- 12. Small things bright and beautiful: single molecule fluorescence detection / Mark A. Osborne. 1. Introduction. 2. Detection modalities. 3. Outlook Forma de acceso: World Wide Web Davies, A. G. A. Giles) Thompson, J. M. T.