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Molecular Recognition and Polymers: Control of Polymer Structure and Self-Assembly

ISBN: 978-0-470-27738-6
Hardcover
492 pages
September 2008
List Price: US $180.00
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Molecular Recognition and Polymers: Control of Polymer Structure and Self-Assembly (0470277386) cover image
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Preface.

Acknowledgments.

List of Contributors.

List of Figures.

List of Tables.

Editor Biographies.

PART I: FUNDAMENTALS OF SUPRAMOLECULAR POLYMERS.

1. A Brief Introduction to Supramolecular Chemistry in a Polymer Context1 (Raymond J. Thibault and Vincent M. Rotello).

1.1 Introduction and Background.

1.2 Main-chain versus Side-chain Supramolecular Polymers.

References.

2. Molecular Recognition Using Amphiphilic Macromolecules (Malar A Azagarsamy, K. Krishnamoorthy, and S. Thayumanavan).

2.1 Introduction.

2.2 Amphiphilic Block Copolymers.

2.2.1 Non-Specific Interactions.

2.2.2 Specific Interactions.

2.3 Amphiphilic Homopolymers.

2.3.1 Container Properties.

2.4 Amphiphilic Dendrimers.

2.5 Conclusions.

2.6 Acknowledgements.

References.

3. Supramolecular Control of Mechanical Properties in Single Molecules, Interfaces and Macroscopic Materials (David M. Loveless, Farrell R. Kersey and Stephen L. Craig).

3.1 Introduction and Background.

3.2 Mechanical Properties of Linear Supramolecular Polymers.

3.3 Mechanical Properties of Supramolecular Polymer Networks.

3.4 Mechanical Properties in Supramolecular Polymers at Interfaces.

3.5 Mechanical Forces and Supramolecular Interactions.

3.6 Conclusions.

References.

PART II: POLYMER FORMATION AND SELF-ASSEMBLY.

4. Hydrogen Bond Functionalized Block Copolymers and Telechelic Oligomers (Brian D. Mather and Timothy E. Long).

4.1 Scientific Rationale and Perspective.

4.2 Hydrogen Bonding Interactions in Macromolecular Design.

4.2.1 Fundamentals of Hydrogen Bonding.

4.2.2 Performance Advantages of Hydrogen Bond Containing Polymers.

4.3 Hydrogen Bond Containing Block Copolymers.

4.4 Telechelic Hydrogen Bond Functional Polymers.

4.5 Combining Hydrogen Bonding with other Non-Covalent Interactions.

4.6 Reversible Attachment of Guest Molecules via Hydrogen Bonding.

4.7 Conclusions and Summary.

References.

5. NonCovalent Side Chain Modification (Kamlesh P. Nair and Marcus Weck).

5.1 Introduction.

5.2 Strategies Towards Noncovalent Side-Chain Functionalization of Polymeric Scaffolds.

5.3 Noncovalent Multifunctionalization of the Side-Chains of Polymeric Scaffolds.

5.4 Applications of Noncovalently Functionalized Side-Chain Copolymers.

5.5 Conclusions and Outlook.

5.6 Acknowledgements.

References.

6. Polymer-Mediated Assembly of Nanoparticles Using Engineered Interactions (Hung-Ting Chen, Yuval Ofir, and Vincent M. Rotello).

6.1 Introduction.

6.2 Design of Nanoparticles and Polymers.

6.3 Self-Assembly Polymer-particle Nanocomposites.

6.4 Conclusions and Outlook.

References.

7. Metallosupramolecular Polymers, Networks, and Gels (Blayne M. McKenzie and Stuart J. Rowan).

7.1 Introduction.

7.2 Metal-Ligand Binding Motifs.

7.3 Linear and Macrocyclic Main-Chain Metallo-Supramolecular Polymers.

7.4 Metallo-Supramolecular Networks and Gels.

7.5 Conclusion and Outlook.

References.

8. Polymeric Capsules: Catalysis and Drug Delivery (Brian P. Mason, Jeremy L. Steinbacher, and D. Tyler McQuade).

8.1 Introduction.

8.2 Methods of Encapsulation.

8.3 Catalyst Encapsulation.

8.4 Drug Delivery with Microcapsules.

8.5 Conclusion.

References.

9. Sequence-Specific Hydrogen-Bonded Units for Directed Association, Assembly and Ligation (Bing Gong).

9.1 Introduction.

9.2 General Design: Information-Storing Molecular Duplexes Based on the Recombination of H-Bond Donors and Acceptors.

9.3 Quadruply H-Bonded Duplexes with Sequence-Independent Stability.

9.4 Tuning Binding Strength by Varying the Number of Interstrand H-Bonds.

9.5 Probing Sequence-Specificity.

9.6 Unexpected Discovery: Duplexes Containing Folded Strands.

9.7 Directed Assembly: Formation of β-sheets and Supramolecular Block Copolymers.

9.8 Integrating Non-covalent and Covalent Interactions: Directed Olefin Metathesis and Disulfide Bond Formation.

9.9 Conclusions and Future Perspective.

9.10 Acknowledgements.

References.

10. Bioinspired Supramolecular Design in Polymers for Advanced Mechanical Properties (Zhibin Guan).

10.1 Introduction.

10.2 Biomimetic Concept of Modular Polymer Design.

10.3 Results and Discussion.

10.4 Summary and Perspective.

10.5 Acknowledgements.

References.

11. The Structure and Self-Assembly of Amphiphilic Dendrimers in Water (Hui Shao and Jon R. Parquette).

11.1 Introduction.

11.2 Structure.

11.3 Self-Assembly and Aggregation.

11.4 Folded Amphiphilic Dendrimers.

11.5 Langmuir-Blodgett Monolayers.

11.6 Conclusion.

References.

PART III: BIOMOLECULAR RECOGNITION USING POLYMERS.

12. Colorimetric Sensing and Biosensing Using Functionalized Conjugated Polymers (Amit Basu).

12.1 Introduction.

12.2 Polydiacetylene.

12.3 Polythiophenes.

12.4 Other Materials.

12.5 Summary.

References.

13. Glycodendrimers and Other Macromolecules Bearing Multiple Carbohydrates (Mary J. Cloninger).

13.1 Introduction.

13.2 Dendrimers to Glycodendrimers.

13.3 Multivalency.

13.4 Heteromultivalent Carbohydrate Systems.

13.5 Comments Regarding the Synthesis of Heteromultivalent Carbohydrate Systems.

13.6 EPR Characterization of Heterogeneously Functionalized Dendrimers.

13.7 Conclusions and Outlook.

13.8 Acknowledgement.

References.

14. Supramolecular Polymerization of Peptides and Peptide Derivatives: Nanofibrous Materials (He Dong, Virany M. Yuwono, and Jeffrey D. Hartgerink).

14.1 Introduction.

14.2 Self-Assembly of Nanofibers Based on Alpha-Helices.

14.3 Nanofibers Self-Assembled from Beta-Sheets.

14.4 Collagen Mimetics.

14.5 Conclusions.

References.

15. Molecular Imprinting for Sensor Applications (Xiangyang Wu and Ken D. Shimizu).

15.1 Introduction to Sensing Platforms.

15.2 Synthesis of Molecularly Imprinted Polymers.

15.3 Recognition Properties of MIPs.

15.4 Polymer Formats and Morphologies.

15.5 Application of MIPs in Sensing.

15.6 Conclusions and Outlook.

References.

Index.

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