Self-assembly and nanotechnology systems : design, characterization, and applications / Yoon S. Lee.

Format:

Book

Author/Creator:

Lee, Yoon S. (Yoon Seob)

Contributor:

Wiley InterScience (Online service)

Anne and Joseph Trachtman Memorial Book Fund.

Language:

English

Subjects (All):

Nanostructured materials.

Nanostructures.

Nanotechnology.

Self-assembly (Chemistry).

Physical Description:

1 online resource (xx, 459 pages) : illustrations

polychrome

Place of Publication:

Hoboken, N.J. : Wiley, [2012]

System Details:

text file

Contents:

Front Matter

Building Units. Self-Assembly Systems

Nanotechnology Systems

Design. Identification of Self-Assembly Capability

Identification of Multi-Step Self-Assemblies

Control of the Structures of Self-Assembled Aggregates

Hierarchy and Chirality of Self-Assembled Aggregates

Assembly with Multiple Building Units

Directed and Forced Assemblies

Applications. External Signal₆Responsive Nanomaterials

Nanomaterials with Intrinsic Functionalities

Nanostructures: Designed to Perform

Nanoproperties: Controlled to Express

Nanofabricated Systems: Combined to Function

Nanomechanical Movements: Combined to Operate

Characterization. Assembly Forces and Measurements

Applications. Assembly Processes and Critical Behaviors

Characterization. Assembled Systems and Structural Properties

Modeling and Simulations

Epilogue: Informatics for Self-Assembly and Nanotechnology Systems

Index.

Notes:

Electronic reproduction. Hoboken, N.J. Available via World Wide Web.

Description based on print version record.

Machine generated contents note: Part I. Building Units. Chapter 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 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. References.

Local Notes:

Acquired for the Penn Libraries with assistance from the Anne and Joseph Trachtman Memorial Book Fund.

Other Format:

Print version: Lee, Yoon S. (Yoon Seob). Self-assembly and nanotechnology systems.

ISBN:

9781118103708

111810370X

9781118103678

111810367X

Publisher Number:

99949593815

Access Restriction:

Restricted for use by site license.