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Supra-materials Nanoarchitectonics
1st Edition - October 7, 2016
Editors: Katsuhiko Ariga, Masakazu Aono
Language: English
Hardback ISBN:9780323378291
9 7 8 - 0 - 3 2 3 - 3 7 8 2 9 - 1
eBook ISBN:9780323378307
9 7 8 - 0 - 3 2 3 - 3 7 8 3 0 - 7
Supra-materials Nanoarchitectonics provides the latest information on design at the nanoscale, presenting a range of the new challenges that arise as the manipulation technique…Read more
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Supra-materials Nanoarchitectonics provides the latest information on design at the nanoscale, presenting a range of the new challenges that arise as the manipulation techniques that work at the macro- and micro-scale do not work at the nanoscale. The term nanoarchitectonics, coined by Japan's National Institute for Materials Science (NIMS), describes the organized interactions required at the nanoscale, replacing the traditional structure-building approach used in materials design.
Nanoarchitectonics approaches material design via a profound understanding of the interactions between individual nanostructures and their organization. As the nanoarchitectonics paradigm fits well with the discipline of supramolecular chemistry, this book brings together these two approaches to demonstrate the potential of supramolecular nanoarchitectonics in the development of new materials, both at the nano- and macro-scale.
Written by the team that coined the term nanoarchitectonics, providing a detailed explanation of the approach and techniques of supramolecular nanoarchitectonics
Demystifies materials design via organized interactions at the nanoscale
Explains this new paradigm via practical scientific techniques
Materials Scientists, Chemists – researchers and grad students
Preface
Overview
Part 1. Nanoarchitectonics of Basics Materials
Chapter 1. Nanocluster Science
1.1. Introduction
1.2. Precise Synthesis
1.3. Basic Properties
1.4. Functionalization Methods
1.5. Summary and Perspective
Chapter 2. Highly Luminescent Metal Nanocluster Molecules
2.1. Introduction
2.2. Au, Ag, and Au-Ag Alloy Nanoclusters
2.3. Bi Nanoclusters
2.4. Perspective
Chapter 3. Biomimetic Morphology Control of Metal Oxides and Their Site-Selective Immobilization
3.1. Introduction
3.2. Liquid Phase Morphology Control of ZnO
3.3. Biomimetic Site-Selective Immobilization of Metal Oxides
3.4. Summary
Chapter 4. Molecular Surface Arrangement to Control Dynamic Dewettability
4.1. Introduction
4.2. Low Contact Angle Hysteresis Surfaces
4.3. Summary
Part 2. Nanoarchitectonics of Inorganic Materials
Chapter 5. Organic-Inorganic Hybrid Nanoarchitecture at Mesoscale
5.1. Introduction
5.2. Organic-Inorganic Hybrid Hollow Capsules Prepared by Colloid Templating
5.3. Self-Assembled Nanohybrid of Magnetic Nanoparticle Clusters With Polysaccharide Nanogels
5.4. Summary
Chapter 6. Nanoarchitectonic Metals
6.1. Introduction
6.2. Seeded-Mediated Growth Method
6.3. Galvanic Replacement Method
6.4. Polyol Method
6.5. Surfactant-Mediated Method
6.6. Electrocatalytic Applications
6.7. Conclusions
Chapter 7. Functional Layered Compounds for Nanoarchitectonics
7.1. Introduction
7.2. Photofunctions of Intercalation Compounds
7.3. Reconstruction of Nanosheets Into Functional Nanostructures
7.4. Nanosheets for Soft Materials
Part 3. Nanoarchitectonics of Bio-Materials and for Biomedicals
Chapter 8. Engineering DNA Molecules for Morphological Reconfiguration
8.1. Engineering Static DNA Nanostructures
8.2. Engineering DNA Nanostructures With Dynamic Morphology
8.3. Constrained Motion of DNA Nanostructures in Thermodynamic Equilibrium
8.4. Conclusions
Chapter 9. Smart Polymers With Nanoarchitectonics
9.1. Introduction
9.2. Classification on the Basis of Stimuli
9.3. Applications of Smart Polymers
9.4. Conclusions
Chapter 10. Crystal-Induced Nanoarchitectonics of Organic Polymer Materials
10.1. Introduction
10.2. Organic Polymer Materials for Nanoarchitectonics
10.3. Conclusions
Chapter 11. Nanoarchitectonics for Cyclodextrin-Mediated Solubilization and Nanoassembly of Therapeutic Agents
11.1. Supramolecular Manipulation: Nanomedicine With Host–Guest Nanoarchitectonics
11.2. Cyclodextrin Inclusion Complex Formation Toward Nanoassembled Systems
11.3. Nanoassembly Control Using a CD Inclusion Complex for PDT Application
11.4. Summary
Part 4. Nanoarchitectonics for Energy/Environment
Chapter 12. Nanoarchitectonics Towards Smart Chemical Sensing
12.1. Introduction
12.2. Recent Examples of Chemical Sensing
12.3. Conclusions
Chapter 13. Nanoarchitectonics for Energy and Environment
13.1. Introduction
13.2. Nanoarchitectonics for Dye-Sensitized Solar Cells
13.3. Nanoarchitectonics for Bioinspired Catalysis
13.4. Nanoarchitectonics for Reversible Hydrogen Storage
13.5. Development of Temperature-Responsive Hydrogel Nanoparticles for Energy-Efficient CO2 Separation
13.6. Conclusions
Index
No. of pages: 346
Language: English
Edition: 1
Published: October 7, 2016
Imprint: Elsevier
Hardback ISBN: 9780323378291
eBook ISBN: 9780323378307
KA
Katsuhiko Ariga
Katsuhiko Ariga has been working on supramolecular chemistry especially related with self-assembly processes, ultrathin films and molecular recognitions. Accomplishments in his researches contribute significantly developments of biomemetic systems as well as physicochemical understanding on interfacial phenomena. Especially, pioneer researches of layer-layer supramolecular assembly have been highly evaluated, and he is also recognized as an authority of supramolecular recognition at the interfaces. Total citation of entire researches exceeded 7000 times. Now, his research team is working on frontier researches for supramolecular materials through entire bottom-up process.
Affiliations and expertise
National Institute for Materials Science (NIMS), Tsukuba, Ibaraki, Japan
MA
Masakazu Aono
Masakazu Aono is highly recognized worldwide for his many distinguished research results over 35 years in the fields of surface science, nanoscience, and nanotechnology. His research is characterized by originality for making epochal advances and by surprising results. e made with his group at RIKEN and later at NIMS pioneering contributions both with novel analytical instrumentation and in novel, advanced technologies and nanochemistry, demonstrating both astonishing scientific and technological depth and breath in "Nano".
Affiliations and expertise
National Institute for Materials Science (NIMS), Tsukuba, Ibaraki, Japan
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