Self-Assembly and Nanotechnology Systems
Design, Characterization, and Applications
(Sprache: Englisch)
This book serves as a companion that expands on the author's previous book by using the concepts from that book as a foundation for an informatic approach to self-assembly, which can be directly expanded into nanoassembly and nanofabrication, providing an...
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This book serves as a companion that expands on the author's previous book by using the concepts from that book as a foundation for an informatic approach to self-assembly, which can be directly expanded into nanoassembly and nanofabrication, providing an effective way to design/fabricate nanofabricated systems. These topics can be used to develop a variety of nanotechnology systems effectively and efficiently, which promises to pave the way to green nanotechnology with its potential for economically sound and environmentally friendly nanoscale processes.
Klappentext zu „Self-Assembly and Nanotechnology Systems “
A fundamental resource for understanding and developing effective self-assembly and nanotechnology systemsSystematically integrating self-assembly, nanoassembly, and nanofabrication into one easy-to-use source, Self-Assembly and Nanotechnology Systems effectively helps students, professors, and researchers comprehend and develop applicable techniques for use in the field. Through case studies, countless examples, clear questions, and general applications, this book provides experiment-oriented techniques for designing, applying, and characterizing self-assembly and nanotechnology systems.
Self-Assembly and Nanotechnology Systems includes:
* Techniques for identifying assembly building units
* Practical assembly methods to focus on when developing nanomaterials, nanostructures, nanoproperties, nanofabricated systems, and nanomechanics
* Algorithmic diagrams in each chapter for a general overview
* Schematics designed to link assembly principles with actual systems
* Hands-on lab activities
This informative reference also analyzes the diverse origins and structures of assembly building units, segmental analysis, and selection of assembly principles, methods, characterization techniques, and predictive models. Complementing the author's previous conceptually based book on this topic, Self-Assembly and Nanotechnology Systems is a practical guide that grants practitioners not only the skills to properly analyze assembly building units but also how to work with applications to exercise and develop their knowledge of this rapidly advancing scientific field.
A fundamental resource for understanding and developing effective self-assembly and nanotechnology systems Systematically integrating self-assembly, nanoassembly, and nanofabrication into one easy-to-use source, Self-Assembly and Nanotechnology Systems effectively helps students, professors, and researchers comprehend and develop applicable techniques for use in the field. Through case studies, countless examples, clear questions, and general applications, this book provides experiment-oriented techniques for designing, applying, and characterizing self-assembly and nanotechnology systems.
Self-Assembly and Nanotechnology Systems includes:
- Techniques for identifying assembly building units
- Practical assembly methods to focus on when developing nanomaterials, nanostructures, nanoproperties, nanofabricated systems, and nanomechanics
- Algorithmic diagrams in each chapter for a general overview
- Schematics designed to link assembly principles with actual systems
- Hands-on lab activities
This informative reference also analyzes the diverse origins and structures of assembly building units, segmental analysis, and selection of assembly principles, methods, characterization techniques, and predictive models. Complementing the author's previous conceptually based book on this topic, Self-Assembly and Nanotechnology Systems is a practical guide that grants practitioners not only the skills to properly analyze assembly building units but also how to work with applications to exercise and develop their knowledge of this rapidly advancing scientific field./> - Techniques for identifying assembly building units
- Practical assembly methods to focus on when developing nanomaterials, nanostructures, nanoproperties, nanofabricated systems, and nanomechanics
- Algorithmic diagrams in each chapter for a general overview
- Schematics designed to li
Self-Assembly and Nanotechnology Systems includes:
- Techniques for identifying assembly building units
- Practical assembly methods to focus on when developing nanomaterials, nanostructures, nanoproperties, nanofabricated systems, and nanomechanics
- Algorithmic diagrams in each chapter for a general overview
- Schematics designed to link assembly principles with actual systems
- Hands-on lab activities
This informative reference also analyzes the diverse origins and structures of assembly building units, segmental analysis, and selection of assembly principles, methods, characterization techniques, and predictive models. Complementing the author's previous conceptually based book on this topic, Self-Assembly and Nanotechnology Systems is a practical guide that grants practitioners not only the skills to properly analyze assembly building units but also how to work with applications to exercise and develop their knowledge of this rapidly advancing scientific field./> - Techniques for identifying assembly building units
- Practical assembly methods to focus on when developing nanomaterials, nanostructures, nanoproperties, nanofabricated systems, and nanomechanics
- Algorithmic diagrams in each chapter for a general overview
- Schematics designed to li
Inhaltsverzeichnis zu „Self-Assembly and Nanotechnology Systems “
Part I. Building UnitsChapter 1. Self-Assembly Systems
1.1 Self-Assembly
1.2 Identification of Building Units
1.3 Implication of Building Unit Structures for Self-Assemblies
1.4 General Assembly Diagram
1.5 Collection of Building Units
1.6 Concluding Remarks
References
Chapter 2. Nanotechnology Systems
2.1 Nanoassembly
2.2 Identification of Building Units
2.3 Nanoelements
2.4 Implication of Building Unit Structures for Nanoassemblies
2.5 General Assembly Diagram
2.6 Self-Assembly, Nanoassembly, and Nanofabrication
2.7 Collection of Building Units
2.8 Concluding Remarks
References
Part II. Design
Chapter 3. Identification of Self-Assembly Capability
3.1 Assembly Issue
3.2 General Overview
3.3 Assembly Principles
3.4 Collection of Primary Self-Assembled Aggregates
3.5 Summary
References
Chapter 4. Identification of Multi-Step Self-Assemblies
4.1 Assembly Issues
4.2 General Overview
4.3 Assembly Principles
4.4 Collection of Higher-Order Self-Assembled Aggregates
4.5 Collection of Self-Assembled Aggregates within Biological Systems
4.6 Summary
References
Chapter 5. Control of the Structures of Self-Assembled Aggregates
5.1 Assembly Issue
5.2 General Overview
5.3 Assembly Principles
5.4 Collection of the Structures of Self-Assembled Aggregates
5.5 Summary
References
Chapter 6. Hierarchy and Chirality of Self-Assembled Aggregates
6.1 Assembly Issue
6.2 General Overview
6.3 Assembly Principles
6.4 Collection of Hierarchy within Self-Assembled Systems
6.5 Collection of Chirality expressed by Self-Assembled Systems
6.6 Summary
References
Chapter 7. Assembly with Multiple Building Units
7.1 Assembly Issue
7.2 General Overview
7.3 Assembly Principles
7.4 Collection of Nanoassembled Systems I
7.5 Collection of Nanoporous Solids
7.6 Summary
References
Chapter 8. Directed and Forced Assemblies
8.1 Assembly Issue
8.2 General Overview
8.3 Assembly Principles
8.4 Techniques for Directed and Forced Assemblies
8.5
... mehr
Surface-Induced Directed and Forced Assemblies
8.6 Collection of Nanoassembled Systems II
8.7 Summary
References
Part III. Applications
9. External Signal-Responsive Nanomaterials
9.1 Nanoissue
9.2 General Overview
9.3 Assembly Principles
9.4 Collection of External Signal-Responsive Assembly Systems
9.5 From Assembly Systems to Nanomaterials
9.6 Collection of External Signal-Responsive Nanomaterials
9.7 Summary
References
Chapter 10. Nanomaterials with Intrinsic Functionalities
10.1 Nanoissue
10.2 General Overview
10.3 Assembly Principles
10.4 From Assembled Systems to Nanomaterials
10.5 Collection of the Nanomaterials with Intrinsic Functionalities
10.6 Summary
References
Chapter 11. Nanostructures: Designed to Perform
11.1 Nanoissue
11.2 General Overview
11.3 Assembly Principles
11.4 Collection of Common Nanostructure Names
11.5 Collection of Nanostructures and Their Applications
11.6 Summary
References
Chapter 12. Nanoproperties: Controlled to Express
12.1 Nanoissue
12.2 General Overview
12.3 Assembly Principles
12.4 Collection of Nanoproperties and Their Applications
12.5 Summary
References
Chapter 13. Nanofabricated Systems: Combined to Function
13.1 Nanoissue
13.2 General Overview
13.3 Fabrication Principles
13.4 Collection of Top-Down Techniques
13.5 Collection of Top-Down Bulk Materials and Functionalizing Agents
13.6 Collection of Nanofabricated Systems and Their Applications
13.7 Summary
References
Chapter 14. Nanomechanical Movements: Combined to Operate
14.1 Nanoissue
14.2 General Overview
14.3 Fabrication Principles
14.4 Collection of Nanomechanical Movements
14.5 Summary
References
Part IV. Characterization
15. Assembly Forces and Measurements
15.1 Intermolecular and Colloidal Forces
15.2 Collection of Intermolecular and Colloidal Forces
15.3 Measurements of Intermolecular and Colloidal Forces
15.4 Collection of Measurement Techniques
15.5 Implication of Building Unit Structures for Characterization
References
Chapter 16. Assembly Processes and Critical Behaviors
16.1 Critical Behavior as the Characterization Guide of Assembly Processes
16.2 Characterization Principles
16.3 Collection of Physical Properties to Measure
16.4 Collection of Critical Assembly Parameters
References
Chapter 17. Assembled Systems and Structural Properties
17.1 Structural Properties for the Characterization of Assembled Systems
17.2 Characterization Principles
17.3 Collection of Structural Properties to Measure
References
Chapter 18. Modeling and Simulations
18.1 Assembly Systems are Big and Multi-Scales
18.2 Classic Models
18.3 Simulations
18.4 Concluding Remarks
Referenceslecular and Colloidal Forces
15.3 Measurements of Intermolecular and Colloidal Forces
15.4 Collection of Measurement Techniques
15.5 Implication of Building Unit Structures for Characterization
References
Chapter 16. Assembly Processes and Critical Behaviors
16.1 Critical Behavior as the Characterization Guide of Assembly Processes
16.2 Characterization Principles
16.3 Collection of Physical Properties to Measure
8.6 Collection of Nanoassembled Systems II
8.7 Summary
References
Part III. Applications
9. External Signal-Responsive Nanomaterials
9.1 Nanoissue
9.2 General Overview
9.3 Assembly Principles
9.4 Collection of External Signal-Responsive Assembly Systems
9.5 From Assembly Systems to Nanomaterials
9.6 Collection of External Signal-Responsive Nanomaterials
9.7 Summary
References
Chapter 10. Nanomaterials with Intrinsic Functionalities
10.1 Nanoissue
10.2 General Overview
10.3 Assembly Principles
10.4 From Assembled Systems to Nanomaterials
10.5 Collection of the Nanomaterials with Intrinsic Functionalities
10.6 Summary
References
Chapter 11. Nanostructures: Designed to Perform
11.1 Nanoissue
11.2 General Overview
11.3 Assembly Principles
11.4 Collection of Common Nanostructure Names
11.5 Collection of Nanostructures and Their Applications
11.6 Summary
References
Chapter 12. Nanoproperties: Controlled to Express
12.1 Nanoissue
12.2 General Overview
12.3 Assembly Principles
12.4 Collection of Nanoproperties and Their Applications
12.5 Summary
References
Chapter 13. Nanofabricated Systems: Combined to Function
13.1 Nanoissue
13.2 General Overview
13.3 Fabrication Principles
13.4 Collection of Top-Down Techniques
13.5 Collection of Top-Down Bulk Materials and Functionalizing Agents
13.6 Collection of Nanofabricated Systems and Their Applications
13.7 Summary
References
Chapter 14. Nanomechanical Movements: Combined to Operate
14.1 Nanoissue
14.2 General Overview
14.3 Fabrication Principles
14.4 Collection of Nanomechanical Movements
14.5 Summary
References
Part IV. Characterization
15. Assembly Forces and Measurements
15.1 Intermolecular and Colloidal Forces
15.2 Collection of Intermolecular and Colloidal Forces
15.3 Measurements of Intermolecular and Colloidal Forces
15.4 Collection of Measurement Techniques
15.5 Implication of Building Unit Structures for Characterization
References
Chapter 16. Assembly Processes and Critical Behaviors
16.1 Critical Behavior as the Characterization Guide of Assembly Processes
16.2 Characterization Principles
16.3 Collection of Physical Properties to Measure
16.4 Collection of Critical Assembly Parameters
References
Chapter 17. Assembled Systems and Structural Properties
17.1 Structural Properties for the Characterization of Assembled Systems
17.2 Characterization Principles
17.3 Collection of Structural Properties to Measure
References
Chapter 18. Modeling and Simulations
18.1 Assembly Systems are Big and Multi-Scales
18.2 Classic Models
18.3 Simulations
18.4 Concluding Remarks
Referenceslecular and Colloidal Forces
15.3 Measurements of Intermolecular and Colloidal Forces
15.4 Collection of Measurement Techniques
15.5 Implication of Building Unit Structures for Characterization
References
Chapter 16. Assembly Processes and Critical Behaviors
16.1 Critical Behavior as the Characterization Guide of Assembly Processes
16.2 Characterization Principles
16.3 Collection of Physical Properties to Measure
... weniger
Autoren-Porträt von Yoon S. Lee
YOON S. LEE, PhD, is a Scientific Information Analyst at Chemical Abstracts Service. He earned his PhD from Seoul National University in South Korea and performed postdoctoral research at The Ohio State University. He is the author of Self-Assembly and Nanotechnology: A Force Balance Approach.
Bibliographische Angaben
- Autor: Yoon S. Lee
- 2011, 1. Auflage, 480 Seiten, Maße: 15,7 x 23,6 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 1118087593
- ISBN-13: 9781118087596
- Erscheinungsdatum: 09.01.2012
Sprache:
Englisch
Rezension zu „Self-Assembly and Nanotechnology Systems “
"While the book may be too challenging for many general readers, it may turn out to be a useful resource for training postgraduate students in the field of self-assembly." ( Chemistry & Industry , 1 June 2012)
Pressezitat
"While the book may be too challenging for many general readers, it may turn out to be a useful resource for training postgraduate students in the field of self-assembly." ( Chemistry & Industry , 1 June 2012)Kommentar zu "Self-Assembly and Nanotechnology Systems"
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