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| 003 | OCoLC | ||
| 005 | 20171220091853.0 | ||
| 008 | 100630t20112011si a b 001 0 eng | ||
| 020 | _a9814322504 (hbk.) | ||
| 020 | _a9814324558 (pbk.) | ||
| 040 |
_aUKM _cUKM _dYDXCP _dBWX _dSINLB _dUV0 _dOIP _dCFI _dINU _dCDX _dOG# _dC#P _dAZU _dTULIB _dKSU _dUtOrBLW |
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| 050 | 4 |
_aQC176.8.N35 _bC36 2011 |
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| 082 | 0 | 4 |
_a620.5 _222 _bCGN |
| 100 | 1 |
_aCao, Guozhong _958456 |
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| 245 | 1 | 0 |
_aNanostructures and nanomaterials : _bsynthesis, properties, and applications / _cGuozhong Cao, Ying Wang |
| 250 | _aSecond edition | ||
| 300 |
_axiii, 581 pages : _billustrations ; _c23 cm |
||
| 490 | 1 |
_aWorld scientific series in nanoscience and nanotechnology ; _v2 |
|
| 500 | _aPrevious edition: London: Imperial College Press, 2004 | ||
| 504 | _aIncludes bibliographical references and index | ||
| 505 | 0 | 0 |
_gMachine generated contents note: _g1.1. _tIntroduction -- _g1.2. _tEmergence of Nanotechnology -- _g1.3. _tBottom-Up and Top-Down Approaches -- _g1.4. _tChallenges in Nanotechnology -- _g1.5. _tScope of the Book -- _tReferences -- _g2.1. _tIntroduction -- _g2.2. _tSurface Energy -- _g2.3. _tChemical Potential as a Function of Surface Curvature -- _g2.4. _tElectrostatic Stabilization -- _g2.4.1. _tSurface charge density -- _g2.4.2. _tElectric potential at the proximity of solid surface -- _g2.4.3. _tVan der Waals attraction potential -- _g2.4.4. _tInteractions between two particles: DLVO theory -- _g2.5. _tSteric Stabilization -- _g2.5.1. _tSolvent and polymer -- _g2.5.2. _tInteractions between polymer layers -- _g2.5.3. _tMixed steric and electric interactions -- _g2.6. _tSummary -- _tReferences -- _g3.1. _tIntroduction -- _g3.2. _tNanoparticles Through Homogeneous Nucleation -- _g3.2.1. _tFundamentals of homogeneous nucleation -- _g3.2.2. _tSubsequent growth of nuclei -- _g3.2.2.1. _tGrowth controlled by diffusion -- _g3.2.2.2. _tGrowth controlled by surface process |
| 505 | 0 | 0 |
_g3.2.3. _tSynthesis of metallic nanoparticles -- _g3.2.3.1. _tinfluences of reduction reagents -- _g3.2.3.2. _tInfluences by other factors -- _g3.2.3.3. _tInfluences of polymer stabilizer -- _g3.2.4. _tSynthesis of semiconductor nanoparticles -- _g3.2.5. _tSynthesis of oxide nanoparticles -- _g3.2.5.1. _tIntroduction to sol[-]gel processing -- _g3.2.5.2. _tForced hydrolysis -- _g3.2.5.3. _tControlled release of ions -- _g3.2.6. _tVapor phase reactions -- _g3.2.7. _tSolid-state phase segregation -- _g3.3. _tNanoparticles Through Heterogeneous Nucleation -- _g3.3.1. _tFundamentals of heterogeneous nucleation -- _g3.3.2. _tSynthesis of nanoparticles -- _g3.4. _tKinetically Confined Synthesis of Nanoparticles -- _g3.4.1. _tSynthesis inside micelles or using microemulsions -- _g3.4.2. _tAerosol synthesis -- _g3.4.3. _tGrowth termination -- _g3.4.4. _tSpray pyrolysis -- _g3.4.5. _tTemplate-based synthesis -- _g3.5. _tEpitaxial Core[-]Shell Nanoparticles -- _g3.6. _tSummary -- _tReferences -- _g4.1. _tIntroduction -- _g4.2. _tSpontaneous Growth -- _g4.2.1. _tEvaporation (dissolution)-condensation growth -- _g4.2.1.1. _tFundamentals of evaporation (dissolution)-condensation growth |
| 505 | 0 | 0 |
_g4.2.1.2. _tEvaporation-condensation growth -- _g4.2.1.3. _tDissolution-condensation growth -- _g4.2.2. _tVapor (or solution)[-]liquid[-]solid (VLS or SLS) growth -- _g4.2.2.1. _tFundamental aspects of VLS and SLS growth -- _g4.2.2.2. _tVLS growth of various nanowires -- _g4.2.2.3. _tControl of the size of nanowires -- _g4.2.2.4. _tPrecursors and catalysts -- _g4.2.2.5. _tSolution[-]liquid[-]solid growth -- _g4.2.3. _tStress-induced recrystallization -- _g4.3. _tTemplate-Based Synthesis -- _g4.3.1. _tElectrochemical deposition -- _g4.3.2. _tElectrophoretic deposition -- _g4.3.3. _tTemplate filling -- _g4.3.3.1. _tColloidal dispersion filling -- _g4.3.3.2. _tMelt and solution filling -- _g4.3.3.3. _tChemical vapor deposition -- _g4.3.3.4. _tDeposition by centrifugation -- _g4.3.4. _tConverting through chemical reactions -- _g4.4. _tElectrospinning -- _g4.5. _tLithography -- _g4.6. _tSummary -- _tReferences -- _g5.1. _tIntroduction -- _g5.2. _tFundamentals of Film Growth -- _g5.3. _tVacuum Science -- _g5.4. _tPhysical Vapor Deposition (PVD) -- _g5.4.1. _tEvaporation -- _g5.4.2. _tMolecular beam epitaxy (MBE) -- _g5.4.3. _tSputtering -- _g5.4.4. _tComparison of evaporation and sputtering |
| 505 | 0 | 0 |
_g5.5. _tChemical Vapor Deposition (CVD) -- _g5.5.1. _tTypical chemical reactions -- _g5.5.2. _tReaction kinetics -- _g5.5.3. _tTransport phenomena -- _g5.5.4. _tCVD methods -- _g5.5.5. _tDiamond films by CVD -- _g5.6. _tAtomic Layer Deposition -- _g5.7. _tSuperlattices -- _g5.8. _tSelf-Assembly -- _g5.8.1. _tMonolayers of organosilicon or alkylsilane derivatives -- _g5,8.2. _tMonolayers of alkanethiols and sulfides -- _g5.8.3. _tMonolayers of carboxylic acids, amines, and alcohols -- _g5.9. _tLangmuir[-]Blodgett Films -- _g5.10. _tElectrochemical Deposition -- _g5.11. _tSol[-]Gel Films -- _g5.12. _tSummary -- _tReferences -- _g6.1. _tIntroduction -- _g6.2. _tCarbon Fullerenes and Nanotubes -- _g6.2.1. _tCarbon fullerenes -- _g6.2.2. _tFullerene-derived crystals -- _g6.2.3. _tCarbon nanotubes -- _g6.3. _tMicro and Mesoporous Materials -- _g6.3.1. _tOrdered mesoporous structures -- _g6.3.2. _tRandom mesoporous structures -- _g6.3.3. _tCrystalline microporous materials: Zeolites -- _g6.4. _tCore[-]Shell Structures -- _g6.4.1. _tMetal[-]oxide structures -- _g6.4.2. _tMetal[-]polymer structures -- _g6.4.3. _tOxide[-]polymer nanostructures |
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_g6.5. _tOrganic-Inorganic Hybrids -- _g6.5.1. _tClass 1 hybrids -- _g6.5.2. _tClass 2 hybrids -- _g6.6. _tIntercalation Compounds -- _g6.7. _tNanocomposites and Nanograined Materials -- _g6.8. _tInverse Opals -- _g6.9. _tBio-Induced Nanomaterials -- _g6.10. _tSummary -- _tReferences -- _g7.1. _tIntroduction -- _g7.2. _tLithography -- _g7.2.1. _tPhotolithography -- _g7.2.2. _tPhase-shifting photolithography -- _g7.2.3. _tElectron beam lithography -- _g7.2.4. _tX-ray lithography -- _g7.2.5. _tFocused ion beam (FIB) lithography -- _g7.2.6. _tNeutral atomic beam lithography -- _g7.3. _tNanomanipulation and Nanolithography -- _g7.3.1. _tScanning tunneling microscopy (STM) -- _g7.3.2. _tAtomic force microscopy (AFM) -- _g7.3.3. _tNear-field scanning optical microscopy (NSOM) -- _g7.3.4. _tNanomanipulation -- _g7.3.5. _tNanolithography -- _g7.4. _tSoft Lithography -- _g7.4.1. _tMicrocontact printing -- _g7.4.2. _tMolding -- _g7.4.3. _tNanoimprint -- _g7.4.4. _tDip-pen nanolithography -- _g7.5. _tAssembly of Nanoparticles and Nanowires -- _g7.5.1. _tCapillary forces -- _g7.5.2. _tDispersion interactions -- _g7.5.3. _tShear-force-assisted assembly |
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_g7.5.4. _tElectric-field-assisted assembly -- _g7.5.5. _tCovalently linked assembly -- _g7.5.6. _tGravitational-field-assisted assembly -- _g7.5.7. _tTemplate-assisted assembly -- _g7.6. _tOther Methods for Microfabrication -- _g7.7. _tSummary -- _tReferences -- _g8.1. _tIntroduction -- _g8.2. _tStructural Characterization -- _g8.2.1. _tX-ray diffraction (XRD) -- _g8.2.2. _tSmall angle X-ray scattering (SAXS) -- _g8.2.3. _tScanning electron microscopy (SEM) -- _g8.2.4. _tTransmission electron microscopy (TEM) -- _g8.2.5. _tScanning probe microscopy (SPM) -- _g8.2.6. _tGas adsorption -- _g8.3. _tChemical Characterization -- _g8.3.1. _tOptical spectroscopy -- _g8.3.2. _tElectron spectroscopy -- _g8.3.3. _tIon spectrometry -- _g8.4. _tPhysical Properties of Nanomaterials -- _g8.4.1. _tMelting points and lattice constants -- _g8.4.2. _tMechanical properties -- _g8.4.3. _tOptical properties -- _g8.4.3.1. _tSurface plasmon resonance -- _g8.4.3.2. _tQuantum size effects -- _g8.4.4. _tElectrical conductivity -- _g8.4.4.1. _tSurface scattering -- _g8.4.4.2. _tChange of electronic structure -- _g8.4.4.3. _tQuantum transport -- _g8.4.4.4. _tEffect of microstructure |
| 505 | 0 | 0 |
_g8.4.5. _tFerroelectrics and dielectrics -- _g8.4.6. _tSuperparamagnetism -- _g8.5. _tSummary -- _tReferences -- _g9.1. _tIntroduction -- _g9.2. _tMolecular Electronics and Nanoelectronics -- _g9.3. _tNanobots -- _g9.4. _tBiological Applications of Nanoparticles -- _g9.5. _tCatalysis by Gold Nanoparticles -- _g9.6. _tBandgap Engineered Quantum Devices -- _g9.6.1. _tQuantum well devices -- _g9.6.2. _tQuantum dot devices -- _g9.7. _tNanomechanics -- _g9.8. _tCarbon Nanotube Emitters -- _g9.9. _tEnergy Applications of Nanomaterials -- _g9.9.1. _tPhotoelectrochemical cells -- _g9.9.2. _tLithium-ion rechargeable batteries -- _g9.9.3. _tHydrogen storage -- _g9.9.4. _tThermoelectrics -- _g9.10. _tEnvironmental Applications of Nanomaterials -- _g9.11. _tPhotonic Crystals and Plasmon Waveguides -- _g9.11.1. _tPhotonic crystals -- _g9.11.2. _tPlasmon waveguides -- _g9.12. _tSummary -- _tReferences |
| 520 | _aThis is the 2nd edition of the original "Nanostructures and Nanomaterials" Written by Guozhong Cao and published by Imperial College Press in 2004 | ||
| 520 | 8 | _aThis important book focuses not only on the synthesis and fabrication of nanostructures and nanomaterials, but also includes properties and applications of nanostructures and nanomaterials, particularly inorganic nanomaterials. It provides balanced and comprehensive coverage of the fundamentals and processing techniques with regard to synthesis, characterization, properties, and applications of nanostructures and nanomaterials. Bothe chemical processing and lithographic techniques are presented in a systematic and coherent manner for the synthesis and fabrication of 0-D, 1-D, and 2-D nanostructures, as well as special nanomaterials such as carbon nanotubes and ordered mesoporous oxides. The book will serve as a general introduction to nanomaterials and nanotechnology for teaching and self-study purposes | |
| 650 | 0 |
_aNanostructures _958457 |
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| 650 | 0 |
_aNanostructured materials _958458 |
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| 650 | 0 |
_aNanotechnology _958459 |
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| 650 | 0 |
_aNanoscience _918551 |
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| 700 | 1 |
_aWang, Ying, _d1981- _958460 |
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| 830 | 0 |
_aWorld Scientific series in nanoscience and nanotechnology ; _v2 _958461 |
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_2ddc _cBOOK |
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_c40415 _d310035 |
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