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|a 9781259007323
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|a 1259007324
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|a (OCoLC)899218803
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|a IN-ChSCO
|b eng
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|a T174.7
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|a 620.5
|2 23
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|a Pradeep, T.,
|e author.
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|a Textbook of nanoscience and nanotechnology /
|c T. Pradeep; with A. Ashokreddy, B.R. Buergi, A. Chainani . [et al.].
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|a First edition.
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|a New York, N.Y. :
|b McGraw-Hill Education,
|c [2012]
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|c ?2012
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|a 1 online resource (xxxiii, 949 pages) :
|b illustrations.
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|a text
|2 rdacontent
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|a computer
|2 rdamedia
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|a online resource
|2 rdacarrier
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|a McGraw-Hill's AccessEngineering
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|a Includes bibliographical references and index.
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|a A. Preface --B. Acknowledgements --C. Authors' profiles --A. Part one: introduction --1. Nano: the expanding horizon --What is nanoscience and nanotechnology? --Why nano? --Current technologies and the problems --Nano the beginning --Nano and energetics --Nano and implications --References --Additional reading --Review questions --B. Part two: experimental methods of investigation --2. Electron microscopies --Introduction --Electron microscopies --References --Additional reading --Review questions --3. Scanning probe microscopies --Introduction --Optical microscopies for nanoscience and technology --References --Additional reading --Review questions --4. Photoelectron spectroscopy for the study of nanomaterials --Introduction --Salient features of pes --Technique of pes --Nomenclature --Applications --Complementary techniques --Synchrotron radiation --Metal clusters and nanoparticles --Semiconductor/insulator nanocrytsals --Quantum well states --Nanowires --References --Additional reading --Review questions --5. Structure of materials by diffraction techniques --Merits/demerits of x-ray vs neutron --X-ray diffraction --Rietveld profile refinement --The crystallite size --Broadening due to strain --Other scattering techniques in vogue --Static light scattering (sls) --Dynamic light scattering (dls) --Small angle neutron/x-ray scattering (sans/saxs) --Concept of contrast factor in sans/saxs experiments --Reflectometry --Review questions --6. Electroanalytical techniques --Cyclic voltammetry --Impedance analysis --Differential pulse voltammetry --Scanning electrochemical microscopy --References --Additional reading --Review questions --7. Raman scattering --Why is the sea blue? --Concept of elastic and inelastic light scattering --Instrumentation for raman scattering --Specific examples of raman spectroscopy application in material science --Emerging methods in raman scattering --Conclusions --References --Additional reading --Review questions --8. Miscellaneous techniques --Mass spectrometry --Contact angle (ca) measurements --Conductivity measurements --Zeta potential --Common analytical tools adapted for the investigation of nanomaterials --References --Additional reading --Review questions.
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|a C. Part three: synthesis --9. Synthesis of nanomaterials --Introduction --General issues of concern --Synthetic methods: common issues of concern --Variety in nanomaterials --Microemulsion-based methods for nanomaterials --Solvothermal synthesis --Synthesis using supports --Using biology --Magnetic nanomaterials --Inert gas condensation --Anisotropic nanoparticles --Other nanomaterials --Conclusions --References --Additional reading --Review questions --D. Part four: understanding nanosystems --10. Theoretical understanding of nanosystems --Introduction --Optical properties of bulk semiconductors --Quantum mechanics of low-dimensional structures --Exciton confinement in quantum dots --Quantum mechanics of confined nanoclusters --Band gap engineering and optical response --Computational methods to understand nanoscale phenomena --Conclusions --References --Additional reading --Review questions and suggested project work --E. Part five: advanced nanomaterials --11. Quantum clusters of gold --Introduction --Synthetic approaches --Characterisation techniques --Electronic structure and optical properties --Photoluminescence --Magnetism --Chemical reactivity --Quantum clusters as catalysts --Conclusions --References --Additional reading --Review questions --12. Nanoparticle crystals --Introduction --3?d superlattices (sls) of metals --Semiconductors --Other important sls --3d superlattices (sls) of binary nanoparticles (bnsls) --Magnetic nanoparticle sls --Applications of sls --Interesting properties in sls --Conclusions --References --Additional reading --Review questions --13. Anisotropic nanomaterials --Introduction --One-, two-, and three-dimensional nanoparticles --General strategies for the synthesis of one-, two- and three-dimensional nanostructures --Properties of anisotropic nanoparticles --Applications of anisotropic nanomaterials --Conclusions --Prospects for the future --References --Additional reading --Review questions --14. One-dimensional nanostructures: nanorods and nanowires --Introduction --Gold nanorods --General strategies of synthesis --Properties --Characterization techniques --Applications --1-d nanostructures of tellurium --Tellurium nanowires --Properties --Conclusions --References --Additional reading --Review questions.
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|a 15. Assembly of anisotropic nanostructures --Introduction --Gold nanorod assembly --Assembly of anisotropic structures of other metals --Assembly of anisotropic structures of cds/cdse --Some examples of assembly of anisotropic structures of other materials --Some applications --Conclusions --References --Additional reading --Review questions --16. Dendritic nanostructures --Introduction to macromolecules and dendrimers --Conclusions --References --Additional reading --Review questions --17. Nanohybrid systems --Introduction --Classification of organic-inorganic hybrids --Preparation of organic-inorganic hybrids --Mesoporous organo-inorganic hybrids --Evaporation-induced self-assembly (eisa) --Nano-building blocks-based hybrids --Methods to graft polymer chains to the nano-building block surface --Biohybrids --Mechanical properties --Applications of organic-inorganic hybrid materials --References --Additional reading --Review questions --F. Part six: nanotechnology: some examples --18. Silicon mos transistor from micro to nano --Introduction --Downscaling and moore's law --Challenges for nano-mosfets --Emergence of new materials --Novel device structures --Innovations in process technology --Conclusions --References --Additional reading --Review questions --19. Molecular electronics --Top-down vs bottom-up --Why molecules? --Experimental advances --Transport?how to understand --Mechanisms of molecular transport --Advanced applications --Conclusions --Single level programme --References --Additional reading --Review questions --20. Nanolithography --Nanolithography --Lithography: concepts and definition --Conventional lithography --Lithography techniques --Nanomanipulation --Conclusions --References --Additional reading --Review questions --21. Nanomagnetism --Magnetism and magnetic materials --Basics of magnetism --Magnetic domains and anisotropy --Magnetic nanostructures --Magnetism of nanosized materials --Synthesis of magnetic nanoparticles --Applications of nanomagnetic materials --References --Additional reading --Review questions --22. Nanobiology --Introduction --Interaction between biomolecules and nanoparticle surfaces --Influence of electrostatic interactions in binding of proteins to nanoparticles --The electronic effects of biomolecule-nanoparticle interaction --Applications of nanomaterials in biology --Theragnostics --Challenges in the translation of nanomedicine --Conclusions and future perspectives --References --Additional reading --Review questions --23. Optical nonlinearity in nanoscale materials --Introduction --Optical non-linearities in metal nanostructures --Optical non-linearities in semiconductor nanocrystallites --Experimental techniques --Technology perspectives --References --Additional reading --Review questions --24. Nanomaterials for environmental remediation --Nanoparticles: environmental remediation by chemical degradation/removal of contaminants --Nanomaterials as sorbents --Nanofiltration?a new technique for clean water --Dendrimers?the nanoreactors for remediation --Carbon nanomaterials?versatile new adsorbents for remediation --Nanoscale biopolymers? benign materils for remediation --Conclusions and future prospects --References --Additional reading --Review questions.
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|a 25. Catalysis using transition metal nanoclusters --Introduction --Growing and full grown particles as redox catalysts --Reactions catalysed by mono and bimetallic nanoparticles --Size-dependent catalysis --Shape-dependent catalysis --Conclusions --References --Additional reading --Review questions --26. Nanofluids for cooling technology --Challenges in cooling technology --Evolution of nanofluids from micro-suspensions --Features and charachteristics of nanofluids --Advantages of nanofluids --Application of nanoflulids --Preparation of nanofluids --Thermal conductivity enhancement in nanofluids --Theories on thermal conductivity of nanofluids --Convective heat transfer studies in a laminar thermally developing flow --Convective heat transfer studies in a turbulent flow regime --Scaling analysis --References --Additional reading --Review questions --G. Part seven: nano and society: a dialogue --27. Nano and world: societies societal aspects of nanoscale science, engineering and technology --Initial reflections on a science with a mission to promote socioeconomic and human development --Studying the nano-realm --Cross-perspectives i-iii --References --Additional reading --Review questions --28. Nano-generated wealth and world societies: nano-economics: a new socioeconomic divide? --Disenchanting now you can i: the "nano-hype" --Disenchanting now you can ii: the "nano-divide" --Disenchanting now you can iii: the "nano-business" --An ethics perspective on the global trade with nanomaterial-based technologies --References --Additional reading --Review questions --29. Nanomaterials: world societies and the natural environment, the rise of nanotoxicology --Public debates on the downsides of nanotech --Handling issues revolving around nanomaterials with responsibility and care --Epistemological, methodological, and practical challenges in the exploration of technoscientific newlands --Afterthoughts on "grounded" nanotoxicology --References --Additional reading --Review questions --30. Nano-politics: governance and regulation of nanotechnoscience, policy debates and public engagement --Actual and perceived needs of governing and regulating nanotechnoscience --Public engagement along fault lines: searching for "cross-perspectives" --Closing remarks on "cross-perspectives" --References --Additional reading --Review questions --H. Part eight: appendices: a practical course on nanoscience and nanotechnology --I. Verification of the beer-lambert law using gold nanoparticles --Objectives --Background --Experiment --Results and discussion --Questions --References --J. Adsorption of biomolecules on gold nanoparticles --Objective --Background --Experiment --Results and discussion --Questions --Answer to question no. 7 --References --K. Determination of the band gap of semiconductor nanoparticles --Objective --Background --Experiment --Results and discussion --Questions --References --L. Nanochemistry of silver nanoparticles in converting p-nitrophenol to p-aminophenol --Objective --Background --Experiment --Results and discussion --Questions --References --M. Surface enhanced raman scattering activity of silver nanoparticles --Objectives --Background --Experiment --Results and discussion --Enhancement factor --Questions --References --N. Conversion of gold nanorods into gold nanoparticles --Objectives --Background --Experiment --Results and discussion --Questions --References --O. Removal of mercury by supported nanoparticles --Objectives --Background --Experiment --Results and discussion --Questions --References --P. Demonstration of liquid magnets --Objectives --Background --Experiment --Results and discussion --Questions --References --Q. Bimetallic nanoparticles --Objectives --Background --Experiment --Results and discussion --Questions --Answer to question no. 8 --References --R. Gold nanoparticles for enhanced visual detection of pesticides --Objective --Background --Experiment --Results and discussion --Questions --References --S. Ractivity of gold clusters towards metal ions --Objectives --Background --Experiment --Results and discussion --Questions --References --T. Study of silver nanoparticles --Objectives --Background --Experiment --Results and discussion --Questions --Answers to question no. 1 --References --U. Synthesis of zno nanoparticles --Objectives --Background --Experiment --Results and discussion --Questions --References --V. Preparation of tellurium nanowires --Objective --Background --Experiment --Results and discussion --Questions --References --W. Synthesis of luminescent gold nanoparticles by core etching --Objectives --Background --Experiment --Results and discussion --Questions --Reference --X. Part ii: appendices: a practical course on nanoscience and nanotechnology --Y. Diverse nanoparticles prepared by various routes --Section i: metals (arranged in the order of atomic numbers) --Section ii: oxide nanoparticles --Section iii: nanoparticles using microemulsion-based methods --Section iv: anisotropic nanoparticles ?References.
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|a "This book is designed to give a comprehensive understanding of the subject, starting from the basics. No prior knowledge is assumed. After giving a historical introduction to the subject, a review of the various experimental tools to understand nanoscale materials is presented. This is followed by specific areas which cover theoretical basis of nanoscale phenomena, advanced nanomaterials, novel properties of materials at this length scale, new applications and societal implications of nanoscience and nanotechnology. A set of experiments designed to give an understanding of the subjects is collected in the appendices. Each of these is written by the best practitioners in the area. While the book captures the expertise of all, care has been taken so that each section is complementary. The material connects fundamentals to advanced research".
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|a Also available in print edition.
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533 |
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|a Electronic reproduction.
|b New York, N.Y. :
|c McGraw Hill,
|d 2012.
|n Mode of access: World Wide Web.
|n System requirements: Web browser.
|n Access may be restricted to users at subscribing institutions.
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|a Mode of access: Internet via World Wide Web.
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|a In English.
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|a Description based on cover image and table of contents, viewed on Dec. 19, 2014.
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650 |
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|a Nanotechnology.
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650 |
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|a Nanoscience.
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|a Electronic books.
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|i Print version:
|t Textbook of nanoscience and nanotechnology.
|b First edition.
|d New York, N.Y. : McGraw-Hill Education, 2012
|w (OCoLC)831264199
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830 |
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|a McGraw-Hill's AccessEngineering.
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856 |
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|u https://accessengineeringlibrary.uam.elogim.com/content/book/9781259007323
|z Texto completo
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