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Smart polymers have an extensive range of applications in the biotechnology and biomedical industries. Although polymers have always been considered passive participants, the second edition of this text promotes a more active role for smart polymers within the process of bioseparation than previously envisioned. This book addresses the major developments in the field that have taken place since the previous edition. With contributions from leading researchers as well as extensive end-of-chapter references, this volume offers a comprehensive overview of the current state-of-the-art in the field and the potential for future developments.
List of contents
Phase Transition in Smart Polymer Solutions and Light Scattering in Biotechnology and Bioprocessing. Responsive Polymer Brushes: A Theoretical Outlook. Conformational Transitions in Cross-Linked Ionic Gels: Theoretical Background, Recent Developments, and Applications. Thermally Responsive Polymers with Amphiphilic Grafts: Intelligent Polymers by Macromonomer Technique. Microgels from Smart Polymers. Protein-Based Smart Polymers. Imprinting Using Smart Polymers. Smart Hydrogels. Macroporous Hydrogels from Smart Polymers. Smart Boronate-Containing Copolymers and Gels at Solid–Liquid Interfaces, Cell Membranes, and Tissues. Drug Delivery Using Smart Polymers: Recent Advances. Polymeric Carriers for Regional Drug Therapy. Smart Polymers in Affinity Precipitation of Proteins. Hydrogels in Microfluidics.
About the author
Igor Galaev, Bo Mattiasson
Summary
The first book to tackle the application of smart polymers in bioseparation and bioprocessing, Smart Polymers: Applications in Biotechnology and Biomedicine broke new ground in this challenging field. Completely revised, updated, and following in the footsteps of its predecessor, the second edition is poised to take its place as a premier reference in this field. This new edition considers those polymers in which a highly nonlinear response of a smart polymer to small changes in the external medium is of critical importance for the successful functioning of the system. The systems discussed are based on soluble/insoluble transition of smart polymers in aqueous solution, on conformational transitions of the macromolecules physically attached or chemically grafted to a surface and on the shrinking/swelling of covalently cross-linked networks of macromolecules, i.e. smart hydrogels.
The book focuses on the theory describing the behavior of smart polymers in solution, as gels, and when grafted to surfaces. It provides solid, quantitative descriptions and reliable guidelines, reflecting the maturation of the field and the demand for the development of new smart polymer systems. The coverage highlights smart gels and especially fast responding and macroporous gels, as these gels pave the way to different applications of smart polymers in the areas ofbioseparation, drug release, and microfluidics. With contributions from leading researchers as well as extensive end-of-chapter references, this volume offers a comprehensive overview of the current state-of-the-art in the field and the potential for future developments.
