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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

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

Book · February 2008 with 7 Reads.

Book · February 2008 with 7 Reads. DOI: 1. 002/9780470384053. Cite this publication. University of Massachusetts Amherst.

Molecular Recognition and Polymers book. Goodreads helps you keep track of books you want to read

Molecular Recognition and Polymers book. Goodreads helps you keep track of books you want to read. Start by marking Molecular Recognition and Polymers: Control of Polymer Structure and Self-Assembly as Want to Read: Want to Read savin. ant to Read.

Molecular Recognition and Polymers. Control of Polymer Structure and Self-Assembly. ISBN: 978-0-470-27738-6. John Wiley & Sons. 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.

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

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. With chapters contributed by the foremost experts in their fields, this resource

11. The Structure and Self-Assembly of Amphiphilic Dendrimers in Water (Hui Shao and Jon R. Parquette). 1. Self-Assembly and Aggregation. 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.

Molecular recognition can be subdivided into static molecular recognition and dynamic molecular . Molecular Recognition and Polymers: Control of Polymer Structure and Self-Assembly V. Rotello, S. Thayumanavan, Eds. Wiley,2008.

Molecular recognition can be subdivided into static molecular recognition and dynamic molecular recognition. Static molecular recognition is likened to the interaction between a key and a keyhole; it is a 1:1 type complexation reaction between a host molecule and a guest molecule to form a host–guest complex. To achieve advanced static molecular recognition, it is necessary to make recognition sites that are specific for guest molecules.

Molecular Recognition and Polymers: Control of Polymer Structure and Self-Assembly. Vincent Rotello, Sankaran Thayumanavan. 9 Mb. Molecular Recognition and Polymers: Control of Polymer Structure and Self-Assembly.

New Biological Books. Cell and Molecular Biology. Molecular Recognition and Polymers: Control of Polymer Structure and SelfAssembly. Hoboken (New Jersey): Wiley. xlix + 436 p. + 4 p. il. index.

Molecular Recognition and Polymers covers the fundamental aspects and applications of molecular . Part II: polymer formation and self-assembly

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. Part II: polymer formation and self-assembly. 4. Hydrogen Bond Functionalized Block Copolymers and Telechelic Oligomers (Brian D. Mather and Timothy E. Long). Scientific Rationale and Perspective.