Studies on Porous Monolithic Materials Prepared via Sol–Gel Processes

  • George Hasegawa

Part of the Springer Theses book series (Springer Theses)

Table of contents

  1. Front Matter
    Pages i-xv
  2. George Hasegawa
    Pages 1-11
  3. George Hasegawa
    Pages 203-207

About this book

Introduction

This thesis focuses on porous monolithic materials that are not in the forms of particles, fibers, or films. In particular, the synthetic strategy of porous monolithic materials via the sol–gel method accompanied by phase separation, which is characterized as the non-templating method for tailoring well-defined macropores, is described from the basics to actual synthesis. Porous materials are attracting more and more attention in various fields such as electronics, energy storage, catalysis, sensing, adsorbents, biomedical science, and separation science. To date, many efforts have been made to synthesize porous materials in various chemical compositions—organics, inorganics including metals, glasses and ceramics, and organic-inorganic hybrids. Also demonstrated in this thesis are the potential applications of synthesized porous monolithic materials to separation media as well as to electrodes for electric double-layer capacitors (EDLCs) and Li-ion batteries (LIBs). This work is ideal for graduate students in materials science and is also useful to engineers or scientists seeking basic knowledge of porous monolithic materials.

Keywords

Carbon Materials LiFePO4/Carbon Composites Monolithic Columns Monolithic Electrodes Phase Separation Polymer Gels Porous Monolithic Materials SiC Ceramics and SiC/C Composites Sol–gel Method TiO2 Monoliths

Authors and affiliations

  • George Hasegawa
    • 1
  1. 1., Graduate School of EngineeringKyoto UniversityKyotoJapan

Bibliographic information

  • DOI https://doi.org/10.1007/978-4-431-54198-1
  • Copyright Information Springer Japan 2013
  • Publisher Name Springer, Tokyo
  • eBook Packages Chemistry and Materials Science
  • Print ISBN 978-4-431-54197-4
  • Online ISBN 978-4-431-54198-1
  • Series Print ISSN 2190-5053
  • Series Online ISSN 2190-5061
  • About this book
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