Umfang:
Online Ressource (PDF, 108014 KB, 486 S.)
Ausgabe:
1. Aufl.
Ausgabe:
Online-Ausg.
ISBN:
1118452003
,
1118680464
,
1118680413
,
9781118680469
,
9781118680414
Inhalt:
There has been concerted effort across scientific disciplines to develop artificial materials and systems that can help researchers understand natural stimuli-responsive activities. With its up-to-date coverage on intelligent stimuli-responsive materials, Intelligent Stimuli-Responsive Materials provides research, industry, and academia professionals with the fundamentals and principles of intelligent stimuli-responsive materials, with a focus on methods and applications. Emphasizing nanostructures and applications for a broad range of fields, each chapter comprehensively covers a different st
Inhalt:
There has been concerted effort across scientific disciplines to develop artificial materials and systems that can help researchers understand natural stimuli-responsive activities. With its up-to-date coverage on intelligent stimuli-responsive materials, Intelligent Stimuli-Responsive Materialsprovides research, industry, and academia professionals with the fundamentals and principles of intelligent stimuli-responsive materials, with a focus on methods and applications. Emphasizing nanostructures and applications for a broad range of fields, each chapter comprehensively covers a different stimuli-responsive material and discusses its developments, advances, challenges, analytical techniques, and applications. Quan Liis Director of Organic Synthesis and Advanced Materials Laboratory at the Liquid Crystal Institute and Adjunct Professor in the Chemical Physics Interdisciplinary Program of Kent State University, where he has directed research projects supported by the National Science Foundation and other U.S. government agencies and several companies. He has edited 2 previous books Self-Organized Organic Semiconductors: From Materials to Device Applicationsand Liquid Crystals Beyond Displays: Chemistry, Physics, and Applications, both published by Wiley.
Anmerkung:
Description based upon print version of record
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INTELLIGENT STIMULI-RESPONSIVE MATERIALS; CONTENTS; PREFACE; CONTRIBUTORS; 1 NATURE-INSPIRED STIMULI-RESPONSIVE SELF-FOLDING MATERIALS; 1.1 INTRODUCTION; 1.2 DESIGN OF SELF-FOLDING FILMS; 1.3 MECHANISM OF FOLDING; 1.4 FABRICATION OF SELF-FOLDING FILMS; 1.5 STIMULI-RESPONSIVE PROPERTIES OF SELF-FOLDING FILMS; 1.5.1 pH Responsive; 1.5.2 Thermoresponsive; 1.5.3 Light Responsive; 1.5.4 Solvent Responsive; 1.5.5 Other Stimuli; 1.6 PROPERTIES AND APPLICATIONS OF SELF-FOLDING FILMS; 1.7 CONCLUSIONS AND OUTLOOK; REFERENCES
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2 STIMULI-RESPONSIVE NANOSTRUCTURES FROM SELF-ASSEMBLY OF RIGID-FLEXIBLE BLOCK MOLECULES2.1 INTRODUCTION; 2.2 THERMAL-RESPONSIVE NANOSTRUCTURES; 2.2.1 Pulsating Tubules from Non-Covalent Macrocycles; 2.2.2 Stimuli-Responsive Gels from T-Shaped Molecules; 2.2.3 Supramolecular Springs; 2.2.4 Structural Changes of Nanorings and Porous Nanostructures; 2.2.5 Aqueous Nanofibers with Switchable Chirality; 2.2.6 Switching between Helical Coils and Straight Rods; 2.2.7 Dynamic Nanostructures from Laterally Grafted Rod Amphiphiles
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2.2.8 Responsive Nematic Gels from the Self-assembly of Aqueous Nanofibers2.3 GUEST MOLECULE-RESPONSIVE NANOSTRUCTURE; 2.3.1 Reversible Conformational Changes in Helical Structures; 2.3.2 Reversible Interconversion of Helical Fibers into Nanocapsules; 2.3.3 Transformation of Single Nanofibers to Flat Ribbons; 2.3.4 Interconversion between Toroid and Stacked Helical Structure; 2.3.5 Reversible Relation of Supramolecular Nanocylinders; 2.3.6 Carbohydrate-Coated Nanostructures; 2.4 OTHER STIMULI-RESPONSIVE NANOSTRUCTURES; 2.5 CONCLUSION; REFERENCES
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3 STIMULI-DIRECTED ALIGNMENT CONTROL OF SEMICONDUCTING DISCOTIC LIQUID CRYSTALLINE NANOSTRUCTURES3.1 INTRODUCTION; 3.2 ALIGNMENT OF DISCOTIC LIQUID CRYSTALS; 3.3 ALIGNMENT OF DISCOTIC NEMATIC LIQUID CRYSTAL PHASE; 3.4 ALIGNMENT CONTROL OF COLUMNAR PHASE WITH DIFFERENT STIMULI; 3.4.1 Thermal Alignment; 3.4.2 Zone Casting; 3.4.3 Zone Melting; 3.4.4 Langmuir-Blodgett Technique; 3.4.5 Magnetic-Field-Induced Alignment; 3.4.6 Electric-Field-Induced Alignment; 3.4.7 Photoalignment by Infrared Irradiation; 3.4.8 Chemical Structure Modifications for Alignment
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3.4.9 Polytetrafluoroethylene Alignment Layer3.4.10 Use of Chemically Modified Surfaces and Dewetting; 3.4.11 Use of Sacrificial Layer; 3.4.12 Dip Coating and Solvent Vapor Annealing; 3.4.13 Other Alignment Techniques; 3.4.14 Alignment in Nanopores and Nanogrooves; 3.5 CONCLUSIONS AND OUTLOOK; ACKNOWLEDGMENTS; REFERENCES; 4 ANION-DRIVEN SUPRAMOLECULAR SELF-ASSEMBLED MATERIALS; 4.1 INTRODUCTION; 4.2 ANION-DRIVEN FORMATION OF SUPRAMOLECULAR GELS; 4.3 SUPRAMOLECULAR GELS BASED ON PLANAR-CHARGED SPECIES; 4.4 MESOPHASES COMPRISING PLANAR-CHARGED SPECIES; 4.5 SUMMARY; REFERENCES
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5 PHOTORESPONSIVE CHOLESTERIC LIQUID CRYSTALS
Weitere Ausg.:
ISBN 9781118680469
Weitere Ausg.:
ISBN 1118680499
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ISBN 1118680510
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ISBN 9781118680513
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ISBN 9781118680513
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Erscheint auch als Druck-Ausgabe Li, Quan: Intelligent Stimuli-Responsive Materials From Well-Defined Nanostructures to Applications
Sprache:
Englisch
Schlagwort(e):
Electronic books
DOI:
10.1002/9781118680469
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