E-Book, Englisch, 318 Seiten
Adachi / Lockwood Self-Organized Nanoscale Materials
1. Auflage 2006
ISBN: 978-0-387-27976-3
Verlag: Springer US
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 318 Seiten
Reihe: Nanostructure Science and Technology
ISBN: 978-0-387-27976-3
Verlag: Springer US
Format: PDF
Kopierschutz: 1 - PDF Watermark
First to review nanoscale self-assembly employing such a wide variety of methods Covers a wide variety physical, chemical and biological systems, phenomena, and applications First overviews of nanotube biotechnology and bimetallic nanoparticles
Autoren/Hrsg.
Weitere Infos & Material
1;Preface;6
2;Contents;12
3;Self-Assembled Si1 xGex Dots and Islands;17
3.1;1.1. Introduction;17
3.2;1.2. Si1 xGex Island Growth;18
3.3;1.3. Stacked Si1 xGex Islands;24
3.4;1.4. Engineering of Si1 xGex Islands;57
3.5;1.5. Applications of Si1 xGex Islands and Dots;62
3.6;1.6. Summary and Future Prospects;67
3.7;References;68
4;Synthesis of Titania Nanocrystals: Application for Dye- Sensitized Solar Cells;87
4.1;2.1. Formation of Titania Nanocrystals by Surfactant- Assisted Methods;87
4.2;2.2. Application of TiO2 Network of Single- Crystalline Nanowires for Dye- Sensitized Solar Cells ;103
4.3;2.3. Summary;110
4.4;References;111
5;Soft Synthesis of Inorganic Nanorods, Nanowires, and Nanotubes;117
5.1;3.1. Introduction;117
5.2;3.2. An Overview: Emerging Synthetic Routes for the Synthesis of Low- Dimensional Nanocrystals;118
5.3;3.3. Soft Synthesis of Low-Dimensional Nanocrystals ;125
5.4;3.4. Summary and Outlook;158
5.5;References;159
6;Assembly of Zeolites and Crystalline Molecular Sieves;175
6.1;4.1. Introduction;175
6.2;4.2. Thermodynamics of Synthesis Processes;176
6.3;4.3. Kinetics of Synthesis Processes;178
6.4;4.4. Assembly Processes;180
6.5;4.5. Components of Synthesis ;185
6.6;4.6. Chirality: Can a "Designer" Zeolite Be Synthesized?;192
6.7;4.7. Summary;194
6.8;References;194
7;Molecular Imprinting by the Surface Sol- Gel Process: Templated Nanoporous Metal Oxide Thin Films for Molecular Recognition;202
7.1;5.1. Introduction;202
7.2;5.2. Surface Sol-Gel Process ;205
7.3;5.3. Molecular Imprinting in Amorphous Metal Oxide Films ;210
7.4;5.4. Practical Potentials ;222
7.5;5.5. Unsolved Problems and Future Prospects;231
7.6;References;233
8;Fabrication, Characterization, and Applications of Template- Synthesized Nanotubes and Nanotube Membranes;237
8.1;6.1. Introduction;237
8.2;6.2. Nomenclature;239
8.3;6.3. Template Synthesis of Nanotubes;239
8.4;6.4. Silica Nanotubes;240
8.5;6.5. Template Synthesis of Nano Test Tubes;245
8.6;6.6. Nanotube Membranes for Bioseparations;250
8.7;6.7. Conical Nanotubes: Mimicking Artificial Ion Channel;257
8.8;6.8. Conclusions;261
8.9;References;262
9;Synthesis and Characterization of Core- Shell Structured Metals;267
9.1;7.1. Introduction;267
9.2;7.2. Preparation of Core-Shell Bimetallic Nanoparticles ;268
9.3;7.3. Characterization of Core-Shell Bimetallic Nanoparticles;276
9.4;7.4. Summary;282
9.5;References;283
10;Cobalt Nanocrystals Organized in Mesoscopic Scale;286
10.1;8.1. Introduction;286
10.2;8.2. Self-Organization of Cobalt Nanocrystals;287
10.3;8.3. Collective Magnetic Properties of Mesostructures Made of Magnetic Nanocrystals;299
10.4;8.4. Conclusion;307
10.5;Acknowledgments;307
10.6;References;307
11;Synthesis and Applications of Highly Ordered Anodic Porous Alumina;312
11.1;9.1. Introduction;312
11.2;9.2. Synthesis of Highly Ordered Anodic Porous Alumina;312
11.3;9.3. Ordered Nanostructures Based on Highly Ordered Anodic Porous Alumina ;316
11.4;9.4. Conclusions;326
11.5;References;327
12;Index;329
