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シュプリンガー エアロゲル・ハンドブック

発展し続けるエアロゲル分野の全体像を示すハンドブック、待望の最新版が刊行!

関連ワード:Springer エネルギー ヘルスケア 有機化学 材料工学 洋書 環境 薬学 金属工学 高分子  更新日:2024.03.11

シュプリンガー エアロゲル・ハンドブック
Springer Handbook of Aerogels (Springer Handbooks)

Editors: Michel A. Aegerter retired Director of the Department of Coating Technology, Leibniz-Institut für Neue Materialien, Germany; Nicholas Leventis retired Professor of Chemistry, Missouri University, USA; Matthias M. Koebel founder of siloxane AG; Stephen A. Steiner President, CEO, and founder of Aerogel Technologies, LLC

2024:03 1,763 p. 270 illus. 140 in color ISBN 978-3-030-27321-7 (Springer) -DE-
EUR329.99

Web販売価格:税込¥62,607/ 標準価格:税込¥80,945

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概要

エアロゲルとは現時点で人類に知られている中で最も軽い固体です。非常に高い断熱性、電気絶縁性、遮音性を持ち材料工学的な可能性に優れていますしかし、最初に製造された二酸化ケイ素を元にしたシリカエアロゲルは強度が弱く、応用範囲が限定されていました。エアロゲル独自の長所は残しつつ、脆さという弱点を乗り越えるために、様々な素材、製法のエアロゲルが開発されています。 

 2011年の好評タイトルAerogel HandbookISBN 9781441974778)を12年ぶりに全面改訂した本書は、種々のエアロゲルの合成から特性評価、最先端の応用、その潜在的な市場へのインパクトまで、包括的にカバーする初のハンドブックです。Part AからPart Kまでの11部にわたって、酸化物ベース、生体高分子ベース、カーボンベース、金属エアロゲルなどの各種のエアロゲルから、建設、運輸、エネルギー、防衛、医学にも広がる応用、製品化までを網羅します。 

 先端材料を求めるすべての方へ、今日知られているすべてのエアロゲルを取り上げ、最新の開発状況を反映した本書をおすすめいたします。

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内容構成

Part A: Unit Operations: Processing Steps used in Aerogel Science
Part B: Characterization
Part C: Oxide Based Aerogels
Part D: Synthetic Polymer Aerogels
Part E: Biopolymer Aerogels
Part F: Organic-Inorganic Hybrid Aerogel
Part G: Carbon-Based Aerogels
Part H: Frontier/Emerging Aerogels
Part I: Applications
Part J: Commercial Products and Industry Overview
Part K: Recipes and Designs

内容明細

1 The Story of Aerogel (Stephen A. Steiner III and Alain C. Pierre)

Part I Unit Operations: Processing Steps used in Aerogel Science
2 Overview of the Sol–Gel Process (Plinio Innocenzi)
3 Gel-Phase Processing and Solvent Exchange (Justin S. Griffin, Ryan T. Nelson, Pavel Gurikov, Irina Smirnova, and
Stephen A. Steiner III)
4 Supercritical Drying of Aerogels (Raman Subrahmanyam, Ilka Selmer, Alberto Bueno, Dirk Weinrich, Wibke Lölsberg, Marc Fricke, Sohajl Movahhed, Pavel Gurikov, and Irina Smirnova)
5 Freeze Drying (Justin S. Griffin, Massimo F. Bertino, Tyler M. Selden, Sylwia M. Członka, and Stephen A. Steiner III)
6 Postprocessing (Stephen A. Steiner III, Justin S. Griffin, Ryan T. Nelson, Frances I. Hurwitz, and Marcus A. Worsley)

Part II Characterization
7 Structural Characterization of Aerogels (Gudrun Reichenauer)
8 Mechanical Characterization of Aerogels (Huiyang Luo, Sadeq Malakooti, Habel Gitogo Churu, Nicholas Leventis, and Hongbing Lu)
9 Thermal Properties of Aerogels (Hans-Peter Ebert)
10 Permeability of Silica Aerogels (Thierry Woignier, Liz Anez, Sylvie Calas-Etienne, Juan Primera, Pascal Etienne, and Jean Phalippou)
11 Simulation and Modeling of Aerogels Using Atomistic and Mesoscale Methods (Lev D. Gelb)
12 Modeling the Structural, Fractal and Mechanical Properties of Aerogels (Ameya Rege)

Part III Oxide-Based Aerogels
13 Silica Aerogels (Alain C. Pierre and Arnaud Rigacci)
14 Hydrophobic Silica Aerogels (Ann M. Anderson and Mary K. Carroll)
15 Superhydrophobic and Flexible Aerogels and Xerogels Derived from Organosilane Precursors (Kazuyoshi Kanamori 金森主祥・京都大学, Ana Stojanovic, Gerard M. Pajonk, Digambar Y. Nadargi, A. Venkateswara Rao, Kazuki Nakanishi 中西和樹・名古屋大学, and Matthias M. Koebel)
16 Sodium Silicate-Based Aerogels by Ambient Pressure Drying (A. Venkateswara Rao, Shanyu Zhao, Gerard M. Pajonk, Uzma K. H. Bangi, A. Parvathy Rao, and Matthias M. Koebel)
17 Synthesis of Metal Oxide Aerogels via Epoxide-Assisted Gelation of Metal Salts (Theodore F. Baumann, Alexander E. Gash, Joe H. Satcher Jr, Nicholas Leventis, and Stephen A. Steiner III)
18 High Temperature Oxide Aerogels (Frances I. Hurwitz, Haiquan Guo, Richard B. Rogers, Nathaniel Olson, and Anita Garg)
19 Zirconia Aerogels (Lassaad Ben Hammouda, Imen Mejri, Mohamed Kadri Younes, and Abdelhamid Ghorbel)

Part IV Synthetic Polymer Aerogels
20 Phenolic Aerogels and Their Carbonization (Chariklia Sotiriou-Leventis, Nicholas Leventis, and Sudhir Mulik)
21 Isocyanate-Derived Aerogels and Nanostructure–Materials Properties Relationships (Nicholas Leventis)
22 Aerogels from Engineering Polymers: Polyimide and Polyamide Aerogels (Mary Ann B. Meador, Stephanie L. Vivod, Baochau Nguyen, Haiquan Guo, and Rocco P. Viggiano)
23 ROMP-Derived Aerogels (Nicholas Leventis and George L. Gould)

Part V Biopolymer Aerogels
24 Cellulose Aerogels: Monoliths, Beads, and Fibers (Lorenz Ratke, Kathirvel Ganesan, and Maria Schestakow)
25 Biopolymer-Silica Aerogel Nanocomposites (Shanyu Zhao, Wim J. Malfait, Chunhua Jennifer Yao, Xipeng Liu, Matthias M. Koebel, and William M. Risen)
26 Polysaccharide (Non-cellulosic) Aerogels (Tatiana Budtov)
27 Nanocellulose Aerogels (Nathalie Lavoine)
28 Potential of Anisotropic Cellulose Aerogels (Sven Plappert and Falk Liebner)

Part VI Organic-Inorganic Hybrid Aerogels
29 Polymer-Crosslinked Aerogels
(Nicholas Leventis, Chariklia Sotiriou-Leventis, Chandana Mandal, Suraj Donthula, and Hongbing Lu)
30 Improving Elastic Properties of Polymer-Reinforced Aerogels (Mary Ann B. Meador and Baochau Nguyen)
31 Aerogels Containing Metal, Alloy, and Oxide Nanoparticles Embedded into Dielectric Matrices (Anna Corrias, Danilo Loche, and Maria Francesca Casula)
32 Tuning the Physical Properties of Aerogels by Spatially Selective Modification (Massimo F. Bertino and Gudrun Reichenauer)
33 Aerogels Through Ultrasonically-Assisted Synthesis (Luis Esquivias, M. Piñero, V. Morales-Flórez, and Nicolás de la Rosa-Fox)
34 Clay-Based Aerogels (Mingze Sun and David A. Schiraldi)

Part VII Carbon-Based Aerogels
35 Preparation and Application of Carbon Aerogels (Jun Shen, Dayong Guan, Xueling Wu, and Kai Zhao)
36 Nanocarbons: Diamond, Fullerene, Nanotube, Graphite, and Graphene Aerogels (Swetha Chandrasekaran, Patrick G. Campbell, Theodore F. Baumann, and Marcus A. Worsley)
37 Direct CVD Synthesis of Carbon Nanotube Aerogels and Textiles (David S. Lashmore and Stephen A. Steiner III)

Part VIII Emerging Aerogels
38 Chalcogenide Aerogels (Stephanie L. Brock and Hongtao Yu)
39 Metal Fluoride and Fluorinated Metal Oxide Aerogels (Tomaž Skapin)
40 Nanoparticle-Based Inorganic Aerogels (Markus Niederberger)
41 Metal Nanoparticle Aerogels (Dennis Müller, Dan Wen, Alexander Eychmüller, and Nadja C. Bigall)
42 Noble Metal Aerogels (F. John Burpo)
43 Nanostructured Metal Foams via Combustion Synthesis (Bryce C. Tappan)
44 Interpenetrating Phenolic/Oxide Networks and Carbothermal Synthesis of Metallic and Carbide Aerogels (Nicholas Leventis, Chariklia Sotiriou-Leventis, and Suraj Donthula)
45 Aerogel-Like Metals Produced Through Physical Vapor Deposition (Racheli Ron and Adi Salomon)
46 Aerogel-Inspired Materials Derived from Industrial Waste (Hai M. Duong)

Part IX Applications
47 Aerogels and Sol–Gel Composites as Nanostructured Energetic Materials (Alexander E. Gash, Randall L. Simpson, Joe H. Satcher Jr, and Nicholas Leventis)
48 Aerogels for Superinsulation (Jannis Wernery, Arnaud Rigacci, Patrick Achard, and Matthias M. Koebel)
49 Aerogels as Platforms for Chemical Sensors (Mary K. Carroll and Ann M. Anderson)
50 Aerogels for Electrochemical Energy Storage Applications (Debra R. Rolison, Megan B. Sassin, and Jeffrey W. Long)
51 Transparent Silica Aerogel Blocks for High-Energy Physics Research (Makoto Tabata 田端誠・千葉大学)
52 Aerogels for High-Energy-Density Physics Targets (Christopher E. Hamilton and Thomas Murphy)
53 Porous Glasses, Binary Glasses, and Composite Glasses from Aerogels (Thierry Woignier, Jerome Reynes, and Jean Phalippou)
54 Environmental Applications for Aerogels (Thierry Woignier, Osman Karatum, and Desiree L. Plata)
55 Aerogels for Pollution Mitigation (Bradford A. Bruno, Ann M. Anderson, and Mary K. Carroll)
56 Application of Aerogels in Optical Devices (Yaprak Özbakır, Alexandr Jonáš, Alper Kiraz, and Can Erkey)
57 Biomedical Applications of Aerogels (Wei Yin and David A. Rubenstein)
58 In Vivo Biomedical Applications of Aerogels (Firouzeh Sabri)
59 Pharmaceutical Applications of Aerogels (Irina Smirnova, Carlos A. García-González, and Pavel Gurikov)
60 Applications of Aerogels in Space Exploration (Steven M. Jones, Jeffrey Sakamoto, and Jong-Ah Paik)
61 Airborne Ultrasonic Transducer (Hidetomo Nagahara, Masahiko Hashimoto橋本雅彦・同志社大学, and Michel A. Aegerter)
62 Aerogels for Foundry Applications (Lorenz Ratke, Barbara Milow, and Eva van Klaveren)
63 Aer( )sculpture: A Free-Dimensional Space Art (Ioannis Michaloudis)

Part X Commercial Products and Industry Overview
64 The Aerogel Industry (Richard A. Collins, Shanyu Zhao, Jiaqing Wang, Justin S. Griffin, and Stephen A. Steiner III)

Part XI Recipes and Designs
65 Recipes and Designs for Aerogels (Stephen A. Steiner III, Ann M. Anderson, Stephanie L. Brock, Moriah C. Buckwalter, Mary K. Carroll, Steve De Pooter, Shannan L. Downey, Alexander Eychmüller, Maximilian Georgi, Justin S. Griffin, Michael D. W. Grogan, Pavel Gurikov, Karl Hiekel, Lawrence W. Hrubesh, Kazuyoshi Kanamori 金森主祥・京都大学, Barbara Milow, Ryan T. Nelson, A. Venkateswara Rao, Marina Schwan, Karunamuni L. Silva, Marcus A. Worsley, and Shanyu Zhao)

Part XII Conclusions and Outlook
66 Aerogels in the 2020s and Beyond (Michel A. Aegerter, Nicholas Leventis, Matthias M. Koebel, and Stephen A. Steiner III)

Part XIII Glossary
67 Glossary of Aerogel Terminology(Stephen A. Steiner III, Michel A. Aegerter, Matthias M. Koebel, and Nicholas Leventis)
Correction to: Springer Handbook of Aerogels (Michel A. Aegerter, Nicholas Leventis, Matthias Koebel, and Stephen A. Steiner III)
Index

(学術洋書部)