Hybrid Nanocomposites for Nanotechnology: Electronic, Optical, Magnetic and Biomedical Applications / Edition 1

Hybrid Nanocomposites for Nanotechnology: Electronic, Optical, Magnetic and Biomedical Applications / Edition 1

by Lhadi Merhari
     
 

ISBN-10: 0387723986

ISBN-13: 9780387723983

Pub. Date: 03/26/2009

Publisher: Springer US

*Covers the latest advances of polymer-inorganic nanocomposites *Focuses on high value-added electronic, optical, magnetic and biomedical applications of hybrid nanocomposites *Describes exciting applications in resists for microelectronics, non-linear optical waveguides, recording media, bio-resists and tissue engineering Hybrid Nanocomposites for

Overview

*Covers the latest advances of polymer-inorganic nanocomposites *Focuses on high value-added electronic, optical, magnetic and biomedical applications of hybrid nanocomposites *Describes exciting applications in resists for microelectronics, non-linear optical waveguides, recording media, bio-resists and tissue engineering Hybrid Nanocomposites for Nanotechnology: Electronic, Optical, Magnetic and Biomedical Applications introduces readers to the complex development of new functional organic-inorganic nanomaterials and explores their non-traditional applications. The traditional application of these nanocomposites has been the reinforcement of plastics by the addition of inorganic fillers, exploiting the enhancement of mechanical properties for commodity plastics. Hybrid nanocomposites provide an attractive, versatile, technological platform for emerging high-added-value applications such as photovoltaic cells and light-emitting devices, lithium-ion batteries, supercapacitors, and biosensors. Composed of seventeen chapters written by leading international authors, this book covers topics such as: Synthesis of a wide range of hybrid nanocomposites based on methods including sol-gel techniques and surface grafting of nanoparticles. In-depth nanocomposite characterizations via DLS, DSC, FTIR, MALDI, NMR, SANS, SAXS, SEC, SEM, TEM, TGA, WAXS techniques. Optimization of fullerene-based resists for nanolithography. Strategies for hermetic coatings and advanced packaging of integrated circuits. Development of bioactive bone cements and drug-delivery systems. Fabrication of optical, electrochemical and magneto-biosensors. With over 2500 bibliographic citations, Hybrid Nanocomposites for Nanotechnology: Electronic, Optical, Magnetic and Biomedical Applications is an invaluable resource for scientists, engineers, and researchers in a wide variety of disciplines including materials science, surface chemistry, energy and da

Product Details

ISBN-13:
9780387723983
Publisher:
Springer US
Publication date:
03/26/2009
Edition description:
2009
Pages:
847
Product dimensions:
6.10(w) x 9.40(h) x 1.70(d)

Table of Contents

Epoxy-silica/silsesquioxane Polymer Nanocomposites.- Scale-Up Synthesis of Polymer-Grafted Nanoparticles in Solvent-Free Dry-System and in Ionic Liquid.- Inorganic–Organic Hybrid Porous Materials.- Synthesis of Mechanically Flexible Organic–Inorganic Hybrid Nanocomposites from Polydimethylsiloxane and Metal Alkoxides.- Structural Characterization of Hybrid Organic–Inorganic Nanocomposites: X-ray.- Development of Hybrid Nanocomposites for Electronic Applications.- Next-Generation Hybrid Nanocomposite Materials Based on Conducting Organic Polymers: Energy Storage and Conversion Devices.- Hybrid Polymer-Inorganic Photovoltaic Cells.- Fullerene Nanocomposite Resists for Nanolithography.- Sol–Gel Hybrids for Electronic Applications: Hermetic Coatings for Microelectronics and Energy Storage.- Polymer–Iron Oxide Based Magnetic Nanocomposites.- Organic–Inorganic Hybrids for Light-Emitting Devices and Integrated Optics.- Highly Photosensitive Sol–Gel Hybrid Nano Materials for Direct Photo-Fabrication of Micro-Optical Elements.- Photonic Structures of Luminescent Semiconductor Nanocrystals and Spherical Microcavities.- Biomedical Applications of Organic–Inorganic Hybrid Nanoparticles.- Development of Bioactive Organic–Inorganic Hybrids Through Sol–Gel Processing.- Silica Sol–Gel Biocomposite Materials for Sensor Development.

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