Amazon cover image
Image from Amazon.com

Nanoparticulate materials : synthesis, characterization, and processing / Kathy Lu.

By: Material type: TextTextPublisher: Hoboken, New Jersey : Wiley, [2012]Description: 1 online resource (xxvii, 434, 31 pages) : illustrationsContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781118408957
  • 1118408950
  • 9781118408902
  • 111840890X
  • 9781118408933
  • 1118408934
  • 9781118408995
  • 1118408993
Subject(s): Genre/Form: Additional physical formats: Print version:: Nanoparticulate materialsDDC classification:
  • 620.1/15 23
LOC classification:
  • TA418.78 .L825
Online resources:
Contents:
1. Introduction. Overview -- Nanoparticle-Based Materials -- Unique Characteristics -- Surface Behaviors -- Vapor Pressure and Solubility -- Size-Dependent Characteristics -- Properties -- Chemical -- Mechanical -- Electrical -- Magnetic -- Optical -- Biological -- Key Scientific and Technical Challenges -- Synthesis -- Characterization -- Superstructure Assembly -- Bulk Processing -- Large-Scale Production -- Modeling and Simulation -- Applications -- Processing Overview -- 2. Nanoparticle Synthesis. Theory -- Nucleation -- Homogeneous Nucleation -- Heterogeneous Nucleation -- Growth -- Gas-Phase Nanoparticle Synthesis -- Gas-Gas Reaction -- Physical Vapor Synthesis -- Chemical Vapor Synthesis -- Laser Ablation -- Gas-Liquid Reaction -- Gas-Solid Reaction -- Liquid Nanoparticle Synthesis -- Fundamental Method -- Precipitation -- Metal Salt Reduction -- Hydrolysis -- Solvothermal Synthesis -- Cryochemical Synthesis -- Confinement Method -- Spray Pyrolysis -- Solventless Synthesis -- Composite Nanoparticle Synthesis -- Core/Shell Structure -- Electroless Deposition -- Templating -- Bio-Based Synthesis -- Field-Assisted Nanoparticle Synthesis -- Micelle Synthesis -- Laser-Assisted Synthesis -- Plasma-Assisted Synthesis -- Microwave-Assisted Synthesis -- Sonication-Assisted Synthesis -- Radiation-Assisted Synthesis -- Electric Field-Assisted Synthesis -- Solid Nanoparticle Synthesis -- Milling -- Reactions between Solids.
3. Nanoparticle Characterization. Size, Shape, and Morphology -- Microscopy -- Scanning Electron Microscopy -- Transmission Electron Microscopy -- Scanning Probe Microscopy -- Dynamic Light Scattering -- X-ray Diffraction Line Broadening -- Small-Angle Scattering -- Optical Spectroscopy -- Energetics and Global Thermodynamics -- Surface Area -- Porosity and Pore Size -- Electron Imaging -- Gas Adsorption -- Structure -- Surface Structure -- Low-Energy Electron Diffraction -- Atomic Force Microscopy -- Scanning Tunneling Microscopy -- Bulk Structure -- X-ray Diffraction -- Electron Diffraction -- Neutron Diffraction -- Composition -- Surface Composition -- Auger Electron Spectroscopy -- X-ray Photoelectron Spectroscopy -- Secondary Ion Mass Spectroscopy -- Bulk Composition -- Optical Atomic Spectroscopy -- X-ray Fluorescence Spectroscopy -- Energy Dispersive X-ray Analysis -- Electron Energy Loss Spectroscopy -- Fourier Transform Infrared Spectroscopy -- Ultraviolet-Visible Absorption Spectroscopy -- Raman Spectroscopy -- Needs in Nanoscale Characterization.
4. Nanoparticle-based Superstructures. Top-Down Processes -- Photolithography -- Electron Beam Lithography -- Ion Beam Lithography -- Other Top-Down Processes -- Bottom-Up Processes -- Nondirectional Interactions -- van der Waals Forces -- Dipole Moments -- Electrostatic Interactions -- Directional Interactions -- Covalent Bonding -- Hydrogen Bonding -- Field-Assisted Assembly -- Capillary Forces -- Other Approaches -- Hybrid -- Functionalized Interactions -- Nonfunctionalized Interactions -- Templating -- Natural Template -- Synthetic Template -- Three-Dimensional Assembly -- 5. Nanoparticle-Based Material Shaping. Dry Forming Techniques -- Uniaxial Compaction -- Cold Isostatic Pressing -- Superhigh Pressure Compaction -- Dynamic Compaction -- Semidry Forming Techniques -- Molding -- Powder Injection Molding -- Micromolding -- Extrusion -- Microextrusion -- Electrospinning -- Wet Forming Techniques -- Colloidal Suspension -- Pressure Casting -- Slip Casting -- Uniaxial Pressure Casting -- Spin Casting -- Tape Casting -- Freeze Casting -- Gel Casting -- Electrophoretic Deposition -- Digital Processing Techniques -- Direct Writing -- Robocasting -- Omnidirectional Printing -- Stereolithography -- Ink-Jet Printing -- Bio-Derived Processes -- Bioactive Materials -- Biomimetic Materials.
6. Sintering. Theories -- Sintering Stages -- Shrinkage -- Grain Growth -- Characteristics of Nanoparticle Sintering -- Designer Systems -- Particle Size Distribution and Packing Characteristics -- Complex Systems -- Phase Transformation -- Lower Sintering Temperature -- Larger Sintering Driving Force -- Porous Nanoparticle Material Sintering -- Partial Sintering -- Pore Forming Sintering -- Template-Directed Sintering -- Special Sintering Processes -- Microwave Sintering -- Electrical Sintering -- Laser Sintering -- Dense Nanoparticle-Based Material Sintering -- Free Sintering -- Customized Nanoparticle Systems -- Customized Sintering Cycles -- Remarks on Free Sintering -- Pressure Sintering -- Hot Pressing -- Hot Isostatic Pressing -- Sinter Forging -- Pressure Spark Plasma Sintering -- Other Sintering Techniques -- 7. Manufacturing Issues and Emerging Areas. Defects and Measurement -- Defects -- Defect Nature -- Defect Size -- Defect Density -- Measurement -- Composition -- Structure -- Surface and Interface -- Process and Quality Control -- Modeling and Simulation -- Environmental and Health Concerns -- Environmental Concerns -- Health Concerns -- Appendices -- Explanation of Unfamiliar Nomenclatures -- Prefixes in the International System of Units.
Tags from this library: No tags from this library for this title. Log in to add tags.
No physical items for this record

Includes bibliographical references and index.

Print version record and CIP data provided by publisher.

1. Introduction. Overview -- Nanoparticle-Based Materials -- Unique Characteristics -- Surface Behaviors -- Vapor Pressure and Solubility -- Size-Dependent Characteristics -- Properties -- Chemical -- Mechanical -- Electrical -- Magnetic -- Optical -- Biological -- Key Scientific and Technical Challenges -- Synthesis -- Characterization -- Superstructure Assembly -- Bulk Processing -- Large-Scale Production -- Modeling and Simulation -- Applications -- Processing Overview -- 2. Nanoparticle Synthesis. Theory -- Nucleation -- Homogeneous Nucleation -- Heterogeneous Nucleation -- Growth -- Gas-Phase Nanoparticle Synthesis -- Gas-Gas Reaction -- Physical Vapor Synthesis -- Chemical Vapor Synthesis -- Laser Ablation -- Gas-Liquid Reaction -- Gas-Solid Reaction -- Liquid Nanoparticle Synthesis -- Fundamental Method -- Precipitation -- Metal Salt Reduction -- Hydrolysis -- Solvothermal Synthesis -- Cryochemical Synthesis -- Confinement Method -- Spray Pyrolysis -- Solventless Synthesis -- Composite Nanoparticle Synthesis -- Core/Shell Structure -- Electroless Deposition -- Templating -- Bio-Based Synthesis -- Field-Assisted Nanoparticle Synthesis -- Micelle Synthesis -- Laser-Assisted Synthesis -- Plasma-Assisted Synthesis -- Microwave-Assisted Synthesis -- Sonication-Assisted Synthesis -- Radiation-Assisted Synthesis -- Electric Field-Assisted Synthesis -- Solid Nanoparticle Synthesis -- Milling -- Reactions between Solids.

3. Nanoparticle Characterization. Size, Shape, and Morphology -- Microscopy -- Scanning Electron Microscopy -- Transmission Electron Microscopy -- Scanning Probe Microscopy -- Dynamic Light Scattering -- X-ray Diffraction Line Broadening -- Small-Angle Scattering -- Optical Spectroscopy -- Energetics and Global Thermodynamics -- Surface Area -- Porosity and Pore Size -- Electron Imaging -- Gas Adsorption -- Structure -- Surface Structure -- Low-Energy Electron Diffraction -- Atomic Force Microscopy -- Scanning Tunneling Microscopy -- Bulk Structure -- X-ray Diffraction -- Electron Diffraction -- Neutron Diffraction -- Composition -- Surface Composition -- Auger Electron Spectroscopy -- X-ray Photoelectron Spectroscopy -- Secondary Ion Mass Spectroscopy -- Bulk Composition -- Optical Atomic Spectroscopy -- X-ray Fluorescence Spectroscopy -- Energy Dispersive X-ray Analysis -- Electron Energy Loss Spectroscopy -- Fourier Transform Infrared Spectroscopy -- Ultraviolet-Visible Absorption Spectroscopy -- Raman Spectroscopy -- Needs in Nanoscale Characterization.

4. Nanoparticle-based Superstructures. Top-Down Processes -- Photolithography -- Electron Beam Lithography -- Ion Beam Lithography -- Other Top-Down Processes -- Bottom-Up Processes -- Nondirectional Interactions -- van der Waals Forces -- Dipole Moments -- Electrostatic Interactions -- Directional Interactions -- Covalent Bonding -- Hydrogen Bonding -- Field-Assisted Assembly -- Capillary Forces -- Other Approaches -- Hybrid -- Functionalized Interactions -- Nonfunctionalized Interactions -- Templating -- Natural Template -- Synthetic Template -- Three-Dimensional Assembly -- 5. Nanoparticle-Based Material Shaping. Dry Forming Techniques -- Uniaxial Compaction -- Cold Isostatic Pressing -- Superhigh Pressure Compaction -- Dynamic Compaction -- Semidry Forming Techniques -- Molding -- Powder Injection Molding -- Micromolding -- Extrusion -- Microextrusion -- Electrospinning -- Wet Forming Techniques -- Colloidal Suspension -- Pressure Casting -- Slip Casting -- Uniaxial Pressure Casting -- Spin Casting -- Tape Casting -- Freeze Casting -- Gel Casting -- Electrophoretic Deposition -- Digital Processing Techniques -- Direct Writing -- Robocasting -- Omnidirectional Printing -- Stereolithography -- Ink-Jet Printing -- Bio-Derived Processes -- Bioactive Materials -- Biomimetic Materials.

6. Sintering. Theories -- Sintering Stages -- Shrinkage -- Grain Growth -- Characteristics of Nanoparticle Sintering -- Designer Systems -- Particle Size Distribution and Packing Characteristics -- Complex Systems -- Phase Transformation -- Lower Sintering Temperature -- Larger Sintering Driving Force -- Porous Nanoparticle Material Sintering -- Partial Sintering -- Pore Forming Sintering -- Template-Directed Sintering -- Special Sintering Processes -- Microwave Sintering -- Electrical Sintering -- Laser Sintering -- Dense Nanoparticle-Based Material Sintering -- Free Sintering -- Customized Nanoparticle Systems -- Customized Sintering Cycles -- Remarks on Free Sintering -- Pressure Sintering -- Hot Pressing -- Hot Isostatic Pressing -- Sinter Forging -- Pressure Spark Plasma Sintering -- Other Sintering Techniques -- 7. Manufacturing Issues and Emerging Areas. Defects and Measurement -- Defects -- Defect Nature -- Defect Size -- Defect Density -- Measurement -- Composition -- Structure -- Surface and Interface -- Process and Quality Control -- Modeling and Simulation -- Environmental and Health Concerns -- Environmental Concerns -- Health Concerns -- Appendices -- Explanation of Unfamiliar Nomenclatures -- Prefixes in the International System of Units.

Physical Science