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Synthesis of Inorganic Nanomaterials : Advances and Key Technologies.

Synthesis of Inorganic Nanomaterials: Advances and Key Technologies discusses the latest advancements in the synthesis of various types of nanomaterials. The book's main objective is to provide a comprehensive review regarding the latest advances in synthesis protocols that includes up-to-date...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Bhagyaraj, Sneha Mohan (Editor ), Oluwafemi, Samuel Oluwatobi, Kalarikkal, Nandakumar, Thomas, Sabu
Formato: Electrónico eBook
Idioma:Inglés
Publicado: [Place of publication not identified] : Elsevier Ltd. : Woodhead Publishing, 2018.
Colección:Micro and nano technologies series
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Synthesis of Inorganic Nanomaterials: Advances and Key Technologies; Copyright; Contents; Contributors; Chapter 1: Nanotechnology: The Science of the Invisible; 1.1. Concept of Nanotechnology; 1.2. History of Nanotechnology; 1.2.1. Eric Drexler; 1.2.2. Richard E. Smalley; 1.3. Classification of Nanomaterials; 1.3.1. Zero-Dimension Structures; 1.3.2. One-Dimensional Structures; 1.3.3. Two-Dimensional Structures; 1.4. Synthesis of Nanostructures; 1.5. Properties of Nanomaterials; 1.5.1. Optical Properties; 1.5.2. Magnetic Properties; 1.5.3. Electronic Properties
  • 1.5.4. Mechanical Properties1.5.5. Catalytic Properties; 1.5.6. Nonlinear Optical Properties; 1.6. Characterization of Nanomaterials; 1.6.1. Optical Characterizations; 1.6.2. Morphological Characterizations; 1.6.3. Electrical Characterizations; 1.6.4. Magnetic Characterizations; 1.6.5. Antibacterial Properties; 1.6.6. In Vivo Characterizations; 1.7. Application of Nanomaterials; 1.8. The Future and Risks of Nanotechnology; 1.9. Conclusions; References; Chapter 2: An Overview of Metal Oxide Nanostructures; 2.1. Introduction; 2.2. Top-Down Fabrication; 2.3. Bottom-up Fabrication
  • 2.3.1. Solution-Phase Fabrication2.3.1.1. Sol-Gel Deposition; 2.3.1.2. Electrochemical Deposition; 2.3.1.3. Hydrothermal-Solvothermal Synthesis; 2.3.1.4. Microemulsion; 2.3.1.5. Coprecipitation; 2.3.1.6. Microwave Synthesis; 2.3.1.7. Sonochemical Method; 2.3.2. Vapor-Phase Growth; 2.3.2.1. Pulsed Laser Deposition; 2.3.2.2. Sputtering; 2.3.2.3. Chemical Vapor Deposition; 2.3.3. Spray Pyrolysis; 2.4. Reinforcement of Nanomaterials by Porous Supports: St�ober Method; 2.5. General Applications of Metal Oxide Nanostructures; 2.5.1. Photovoltaic Application; 2.5.2. Lithium Ion Batteries
  • 2.5.3. Catalysis2.5.4. Gas Sensing; 2.5.5. Biomedical Application; References; Chapter 3: Quantum Nanostructures (QDs): An Overview; 3.1. Introduction; 3.2. Classification of Nanostructures; 3.3. What Are Quantum Dots?; 3.4. Quantum Confined Electrons-The Excitons; 3.5. Special Properties of Quantum Dots; 3.5.1. Multiple Exciton Generation; 3.5.2. Photoluminescence; 3.5.3. Tunable Bandgap; 3.6. Fabrication/Synthesis of Quantum Nanostructures; 3.6.1. Top-Down Approaches; 3.6.1.1. Ball Milling; 3.6.1.2. Lithography; 3.6.2. Bottom-Up Approaches; 3.6.2.1. Physical Methods; Inert Gas Condensation
  • Physical Vapor DepositionEpitaxy; Sputtering; Arc Discharge; Laser Ablation; Laser Pyrolysis; 3.6.2.2. Chemical Methods; Chemical Vapor Deposition; Atomic Layer Deposition; Spray Pyrolysis; Colloidal Synthesis; Sol-Gel Method; Sonochemical Synthesis; Microwave Assisted Synthesis; Lab-on-Chip; 3.7. Synthesis of MPA Capped CdTe QDs; 3.8. Characterizations; 3.8.1. XRD Analysis; 3.8.2. Optical Absorbance; 3.8.3. Photoluminescence Spectra; 3.9. Applications; 3.9.1. Quantum Dot Display; 3.9.2. Biological Imaging; 3.9.3. Quantum Dot Solar Cells; 3.9.3.1. Quantum Dot Schottky Solar Cells