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Apfelbaumpaten
Molecular Recognition and Polymers
Control of Polymer Structure and Self-Assembly
von Vincent Rotello, Sankaran Thayumanavan
Verlag: Wiley
Gebundene Ausgabe
ISBN: 978-0-470-27738-6
Erschienen am 01.09.2008
Sprache: Englisch
Format: 236 mm [H] x 157 mm [B] x 28 mm [T]
Gewicht: 794 Gramm
Umfang: 488 Seiten

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Biografische Anmerkung
Klappentext
Inhaltsverzeichnis

Vincent Rotello is the Goessmann Professor in the Department of Chemistry at the University of Massachusetts, Amherst. His research emphasizes achieving a fundamental understanding of supramolecular chemistry and applying it to issues in biology and nanoscience including delivery, sensing, and devices.
S. Thayumanavan is a Professor in the Department of Chemistry at the University of Massachusetts, Amherst. His research focuses on the design and synthesis of novel macromolecules (dendrimers and polymers) that have applications in chemistry, biology, and materials science. Examples of these applications include catalysis and transport, drug and gene delivery, and light harvesting and sensory materials.



State-of-the-art techniques for tapping the vast potential of polymers
The use of specific non-covalent interactions to control polymer structure and properties is a rapidly emerging field with applications in diverse disciplines. Molecular Recognition and Polymers covers the fundamental aspects and applications of molecular recognition?in the creation of novel polymeric materials for use in drug delivery, sensors, tissue engineering, molecular imprinting, and other areas. This reference begins by explaining the fundamentals of supramolecular polymers; it progresses to cover polymer formation and self-assembly with a wide variety of examples, and then includes discussions of biomolecular recognition using polymers. With chapters contributed by the foremost experts in their fields, this resource:
* Provides an integrated resource for supramolecular chemistry, polymer science, and interfacial science
* Covers advanced, state-of-the-art techniques used in the design and characterization of non-covalent interactions in polymers
* Illustrates how to tailor the properties of polymeric materials for various applications
Stand-alone chapters address specific applications independently for easy reference. This is a premier resource for graduate students and researchers in polymer chemistry, supramolecular chemistry, materials science, and physical organic chemistry.



List of Tables, Figures, Charts and Schemes.
Dedication.
Preface.
Acknowledgements.
Editor Bibliographies.
List of Contributors.
PART I: FUNDAMENTALS OF SUPRAMOLECULAR POLYMERS1 .
1. A Brief Introduction to Supramolecular Chemistry in a Polymer Context1 (Raymond J. Thibault and Vincent M. Rotello).
References.
2. Molecular Recognition Using Amphiphilic Macromolecules (Malar A Azagarsamy, K. Krishnamoorthy, and S. Thayumanavan).
References.
3. Supramolecular Control of Mechanical Properties in Single Molecules, Interfaces and Macroscopic Materials (David M. Loveless, Farrell R. Kersey and Stephen L. Craig).
References.
PART II: POLYMER FORMATION AND SELF-ASSEMBLY.
4. Hydrogen Bond Functionalized Block Copolymers and Telechelic Oligomers (Brian D. Mather and Timothy E. Long).
References.
5. Non-Covalent Side-chain Modification (Kamlesh P. Nair and Marcus Weck).
References.
6. Polymer-Mediated Assembly of Nanoparticles Using Engineered Interactions (Hung-Ting Chen, Yuval Ofir, and Vincent M. Rotello).
References.
7. Metallo-Supramolecular Polymers, Networks, and Gels (Blayne M. McKenzie and Stuart J. Rowan).
References.
8. Polymeric Capsules: Catalysis and Drug Delivery (Brian P. Mason, Jeremy L. Steinbacher, and D. Tyler McQuade).
References.
9. Sequence-Specific Hydrogen-Bonded Units for Directed Association, Assembly and Ligation (Bing Gong).
References.
10. Bio-Inspired Supramolecular Design in Polymers for Advanced Mechanical Properties (Zhibin Guan).
References.
11. The Structure and Self-Assembly of Amphiphilic Dendrimers in Water (Hui Shao and Jon R. Parquette).
References.
PART III: BIOMOLECULAR RECOGNITION USING POLYMERS.
12. Colorimetric Sensing and Biosensing Using Functionalized Conjugated Polymers (Amit Basu).
References.
13. Glycodendrimers and Other Macromolecules Bearing Multiple Carbohydrates (Mary J. Cloninger).
Abstract.
References.
14. Supramolecular Polymerization of Peptides and Peptide Derivatives: Nanofibrous Materials (He Dong, Virany M. Yuwono, and Jeffrey D. Hartgerink).
References.
15. Molecular Imprinting for Sensor Applications (Xiangyang Wu and Ken D. Shimizu).
References.
Index.


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