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Springer Handbook of Aerogels

  • Book
  • © 2023

Overview

Editors:
  1. Michel A. Aegerter

    1. Bottens, Switzerland

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  2. Nicholas Leventis

    1. Research and Development, Aspen Aerogels, Inc., Northborough, USA

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  3. Matthias Koebel

    1. Siloxene AG, Dübendorf, Switzerland

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  4. Stephen A. Steiner III

    1. Aerogel Technologies, LLC, Boston, USA

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  • Covers best practices for materials characterization and equipment design
  • Features in-depth coverage of all types of organic, inorganic, and composite aerogels, from silica based aerogels to polymer aerogels
  • Offers a detailed survey of the industrial landscape, including military, aerospace, household, environmental, energy, and biomedical applications

Part of the book series: Springer Handbooks (SHB)

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Table of contents (68 chapters)

  1. Front Matter

    Pages i-xxv
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  2. The Story of Aerogel

    • Stephen A. Steiner III, Alain C. Pierre
    Pages 1-50

  3. Unit Operations: Processing Steps used in Aerogel Science

    1. Front Matter

      Pages 51-51
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    2. Overview of the Sol–Gel Process

      • Plinio Innocenzi
      Pages 53-69

    3. Gel-Phase Processing and Solvent Exchange

      • Justin S. Griffin, Ryan T. Nelson, Pavel Gurikov, Irina Smirnova, Stephen A. Steiner III
      Pages 71-92

    4. Supercritical Drying of Aerogels

      • Raman Subrahmanyam, Ilka Selmer, Alberto Bueno, Dirk Weinrich, Wibke Lölsberg, Marc Fricke et al.
      Pages 93-120

    5. Freeze Drying

      • Justin S. Griffin, Massimo F. Bertino, Tyler M. Selden, Sylwia M. Członka, Stephen A. Steiner III
      Pages 121-131

    6. Postprocessing

      • Stephen A. Steiner III, Justin S. Griffin, Ryan T. Nelson, Frances I. Hurwitz, Marcus A. Worsley
      Pages 133-147

  4. Characterization

    1. Front Matter

      Pages 149-149
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    2. Structural Characterization of Aerogels

      • Gudrun Reichenauer
      Pages 151-195

    3. Mechanical Characterization of Aerogels

      • Huiyang Luo, Sadeq Malakooti, Habel Gitogo Churu, Nicholas Leventis, Hongbing Lu
      Pages 197-229

    4. Thermal Properties of Aerogels

      • Hans-Peter Ebert
      Pages 231-259

    5. Permeability of Silica Aerogels

      • Thierry Woignier, Liz Anez, Sylvie Calas-Etienne, Juan Primera, Pascal Etienne, Jean Phalippou
      Pages 261-272

    6. Simulation and Modeling of Aerogels Using Atomistic and Mesoscale Methods

      • Lev D. Gelb
      Pages 273-288

    7. Modeling the Structural, Fractal and Mechanical Properties of Aerogels

      • Ameya Rege
      Pages 289-305

  5. Oxide-Based Aerogels

    1. Front Matter

      Pages 307-307
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    2. Silica Aerogels

      • Alain C. Pierre, Arnaud Rigacci
      Pages 309-334

    3. Hydrophobic Silica Aerogels

      • Ann M. Anderson, Mary K. Carroll
      Pages 335-365

    4. Superhydrophobic and Flexible Aerogels and Xerogels Derived from Organosilane Precursors

      • Kazuyoshi Kanamori, Ana Stojanovic, Gerard M. Pajonk, Digambar Y. Nadargi, A. Venkateswara Rao, Kazuki Nakanishi et al.
      Pages 367-391

    5. Sodium Silicate-Based Aerogels by Ambient Pressure Drying

      • A. Venkateswara Rao, Shanyu Zhao, Gerard M. Pajonk, Uzma K. H. Bangi, A. Parvathy Rao, Matthias M. Koebel
      Pages 393-417
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Keywords

About this book

This indispensable handbook provides comprehensive coverage of the current state-of-the-art in inorganic, organic, and composite aerogels – from synthesis and characterization to cutting-edge applications and their potential market impact. Built upon Springer’s successful Aerogels Handbook published in 2011, this handbook features extensive revisions and timely updates, reflecting the changes in this fast-growing field. 

Aerogels are the lightest solids known to man. Up to 1000 times lighter than glass and with a density only four times that of air, they possess extraordinarily high thermal, electrical, and acoustic insulation properties, and boast numerous entries in Guinness World Records. Originally based on silica, R&D efforts have extended this class of materials to incorporate non-silicate inorganic oxides, natural and synthetic organic polymers, carbon, metal, and ceramic materials. Composite systems involving polymer-crosslinked aerogels and interpenetrating hybrid networks have been developed and exhibit remarkable mechanical strength and flexibility. Even more exotic aerogels based on clays, chalcogenides, phosphides, quantum dots, and biopolymers such as chitosan are opening new applications for the construction, transportation, energy, defense and healthcare industries. Applications in electronics, chemistry, mechanics, engineering, energy production and storage, sensors, medicine, nanotechnology, military and aerospace, oil and gas recovery, thermal insulation, and household uses are being developed.

Readers of this fully updated and expanded edition will find an exhaustive source for all aerogel materials known today, their fabrication, upscaling aspects, physical and chemical properties, and the most recent advances towards applications and commercial use. This key reference is essential reading for a combined audience of graduate students, academic researchers, and industry professionals.



Reviews

“The handbook has been compiled masterfully by the editorial staff to provide the most up to date findings, but also to honor the fundamentals of the field, often forgotten in many advanced handbooks, that provide the context and the practical knowledge in a single source volume.” (George L. Gould – Chief Technology Officer, Aspen Aerogels, Inc.) 

Editors and Affiliations

  • Bottens, Switzerland

    Michel A. Aegerter

  • Research and Development, Aspen Aerogels, Inc., Northborough, USA

    Nicholas Leventis

  • Siloxene AG, Dübendorf, Switzerland

    Matthias Koebel

  • Aerogel Technologies, LLC, Boston, USA

    Stephen A. Steiner III

About the editors

Michel A. Aegerter is the retired Director of the Department of Coating Technology at the Leibniz-Institut für Neue Materialien (INM) in Saarbrücken with decades of research dedicated exclusively to the sol-gel process, the materials derived from it and their application. Since 2007, he is the Editor-in-Chief of the Journal of Sol-Gel Science and Technology (JSST).


Nicholas Leventis received his Ph.D. from Michigan State University in organic chemistry in 1985. After retiring as a Professor of Chemistry from the Missouri University of Science and Technology, he recently joined Aspen Aerogels.  His aerogel work has focused on polymer-crosslinked aerogels, organic aerogels from most main classes of organic polymers, interpenetrating organic-inorganic aerogels, as well as metallic, ceramic and carbon aerogels. 


Matthias M. Koebel received his PhD from Brown University in 2004. After a postdoctoral stay at UC Berkeley with G.A. Somorjai focusing on nanocatalysis, he joined EMPA back in his home country – Switzerland – in 2006 where he began building a research group in soft chemistry and aerogels. His core activities are linked to process-scale up and lab-to-market transfer of nanomaterials science. In 2021 he founded siloxane AG.


Stephen A. Steiner III is the President, CEO, and founder of Aerogel Technologies, LLC, a leading aerogel manufacturer.  Steiner holds a PhD in Materials Chemistry and Engineering from MIT’s Department of Aeronautics and Astronautics, an SM in Materials Science and Engineering from MIT, and a BS in Chemistry Course from the University of Wisconsin—Madison.  He is an accomplished nanomaterials researcher, with expertise in aerogels, nanocarbons, and aerospace materials.


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