ABSTRACT

Smart polymers are macromolecules capable of undergoing rapid, reversible phase transitions from a hydrophilic to a hydrophobic microstructure when triggered by small changes in their immediate environment, such as slight variations in temperature, pH or ionic strength. Until now, it has always been considered that polymers are passive participants within the Bioseparation procedure. Smart Polymers for Bioseparation and Bioprocessing addresses an entirely novel theory that advocates a much more active role for smart polymers within this process than has previously been envisaged, and therefore focuses on the role of these smart polymers within bioseparation.
With contributions from the leading researchers working on smart polymers and their applications, this volume offers a comprehensive overview of both the current state-of-affairs within this research field and the potential for future developments. This book will be of interest to those working on techniques of bioseparation and bioprocessing, polymer chemists developing new smart polymers, as well as graduates in biotechnology.

Temperature and pH Sensitive Graft Copolymers. Synthesis of Novel Smart Polymers for Bioseparation and Bioprocessing. Affinity Precipitation of Proteins using Smart Polymers. Aqueous Two Phase Systems with Smart Polymers. Polycomplexes for Bioseparation and Bioprocessing. Controlled Permeation through Membranes Modified with Smart Polymers. Applications of Smart Hydrogels in Separation. Surfaces Coated with Smart Polymers: Chromatography and Cell Detachment. Smart Latexes for Bioseparation and Bioprocessing. Application of Water-Soluble Polymers and their Complexes for Immunoanalytical Purposes. Enzymes Immobilized in Smart Hydrogels. Stimuli Responsive Polymers in Bioprocessing.

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