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Title:
Polymer Gels and Networks |
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Division: Polymer / CRC Press / 英文版 |
Author/Editor: Yoshihito Osada and Alexei R Khokhlov Star:  |
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ISBN: 0824706692 |
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Introduce Date: 2006年08月30日19:14 , Release Date: 2006年08月30日23:23 |
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Introducer: Audery , Rate: 26/449 |
| Format: pdf(editorial) Download |
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| Appraiser: yxzhou2001 | Grade: +3 | Reason: ( 这本书还行 ) | | | Appraiser: TGV | Grade: +5 | Reason: ( 这本书很棒 ) | | | Appraiser: choscar | Grade: +5 | Reason: ( Welcome new guy! ) | |
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| Description: |
Polymer Gels and Networks
By: Yoshihito Osada Alexei Khokhlov
ISBN: 0824706692
Publisher: CRC - 2001-12-15
Hardcover | 1st Edition | 400 Pages | List Price: $199.95 (USD)
Product Dimensions: 9.24 x 6.24 x 0.93 inches
This book presents an in-depth look at the properties, thermodynamic formation, structure, latest trends, and scientific application of bio- and synthetic polymer gels. It describes the use of hydrogels as superabsorbents, carriers for controlled drug release, membranes with regulated permeability, sensor devices, and artificial muscles. It will be of value to organic, medicinal, physical, surface, and colloid chemists and biochemists; chemical, materials, biomedical, polymer, fibers, and coatings engineers and bioengineers; pharmaceutical scientists; and advanced undergraduates and graduate students in these disciplines.
Contents
Process and formation gels: casacade formalism applied to the network formation in organic/inorganic hybrid gel films; thermoreversible and irreversible physical gels from biopolymers; reversable (physical) gelation in the solutions of associating polyelectrolytes; association in polyelectrolyte-catanionic vesicle systems - from phase behaviour to microstructure; metal nanoparticle formation in polyelectrolyte gels with regular microstructures.
Structure and behaviours of gels: structure and properties of polyampholyte gels; polyelectrolyte/ionomer behaviour of polymer gels; electrical behaviours and mechanical responses of polyelectrolyte gels; synchrotron X-ray study on nanostructures of polyelectrolyte gel/surfactant complexes; structural and dynamic behaviour of polymer gels as eludicated by NMR spectroscopy; electric and magnetic field sensitive smart polymer gels; rhythmically pulsating gels based on chemomechanical feedback instability.
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