Amphiphilic Polymer Co-networks: Synthesis, Properties, Modelling and Applications
Amphiphilic polymer co-networks (APCNs) are a type of polymeric hydrogel, their hydrophobic polymer segments and hydrophilic components produce less aqueous swelling, giving better mechanical properties than conventional hydrogels. This new class of polymers is attracting increasing attention, resulting in further basic research on the system, as well as new applications.
This book focuses on new developments in the field of APCNs, and is organised in four sections: synthesis, properties, applications and modelling. Co-network architectures included in the book chapters are mainly those deriving from hydrophobic macro-cross-linkers, representing the classical approach; however, more modern designs are also presented. Properties of interest discussed include aqueous swelling, thermophysical and mechanical properties, self-assembly, electrical actuation, and protein adsorption. Applications described in the book chapters include the use of co-networks as soft contact lenses, scaffolds for drug delivery and tissue engineering, matrices for heterogeneous biocatalysis, and membranes of controllable permeability. Finally, an important theory chapter on the modelling of the self-assembly of APCNs is also included.
The book is suitable for graduate students and researchers interested in hydrogels, polymer networks, polymer chemistry, block copolymers, self-assembly and nanomaterials, as well as their applications in contact lenses, drug delivery, tissue engineering, membranes and biocatalysis.
Amphiphilic Polymer Co-networks: Synthesis, Properties, Modelling and Applications, The Royal Society of Chemistry, 2020.
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CHAPTER 1: Thirty Years of Amphiphilic Polymer Co-networksp1-14ByCostas S. PatrickiosCostas S. PatrickiosUniversity of Cyprus, Department of Chemistry1 University Avenue2109 AglanjiaNicosiaCyprus[email protected]Search for other works by this author on:
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CHAPTER 2: Poly(N-vinylimidazole)-based Nanostructured Amphiphilic Polymer Co-networksp15-46ByCsaba Fodor;Csaba FodorPolymer Chemistry Research Group, Institute of Materials and Environmental Chemistry, Research Centre for Natural Sciences, Hungarian Academy of SciencesMagyar tudósok körútja 2H-1117 BudapestHungary[email protected]Search for other works by this author on:Tímea Stumphauser;Tímea StumphauserPolymer Chemistry Research Group, Institute of Materials and Environmental Chemistry, Research Centre for Natural Sciences, Hungarian Academy of SciencesMagyar tudósok körútja 2H-1117 BudapestHungary[email protected]Search for other works by this author on:Béla IvánBéla IvánPolymer Chemistry Research Group, Institute of Materials and Environmental Chemistry, Research Centre for Natural Sciences, Hungarian Academy of SciencesMagyar tudósok körútja 2H-1117 BudapestHungary[email protected]Search for other works by this author on:
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CHAPTER 3: Designing Multi-component Biodegradable/Biocompatible Amphiphilic Polymer Co-networks for Biomedical Applicationsp47-76ByArvind K. Singh Chandel;Arvind K. Singh ChandelMembrane Science and Separation Technology Division, CSIR-Central Salt and Marine Chemicals Research InstituteBhavnagarGujaratIndiaSearch for other works by this author on:Suresh K. JewrajkaSuresh K. JewrajkaSearch for other works by this author on:
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CHAPTER 4: Cleavable Dimethacrylate-end-linked Amphiphilic Polymer Co-networks Prepared Using Degradable, Hemiacetal Ester Group-containing Bifunctional Initiatorsp77-94ByCostas S. Patrickios;Costas S. PatrickiosDepartment of Chemistry, University of CyprusP. O. Box 205372109 AglanjiaNicosiaCyprusSearch for other works by this author on:Maria Rikkou-KalourkotiMaria Rikkou-KalourkotiDepartment of Pharmacy, Frederick University7 Y. Frederickou Str.Pallouriotissa1036 NicosiaCyprus[email protected]Search for other works by this author on:
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CHAPTER 5: Structural Studies on PEO-b-PPO-based Amphiphilic Polymer Co-networksp95-108ByKell MortensenKell MortensenUniversity of Copenhagen, Niels Bohr InstituteUniversitetsparken 5Copenhagen 2100Denmark[email protected]Search for other works by this author on:
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CHAPTER 6: Structure and Physical Properties of Amphiphilic Polymer Co-network Hydrogels with Controlled Structuresp109-128ByXiang Li;Xiang LiInstitute for Solid State Physics, The University of Tokyo5-1-5 KashiwanohaKashiwaChibaJapan[email protected]Search for other works by this author on:Takamasa SakaiTakamasa SakaiSearch for other works by this author on:
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CHAPTER 7: Amphiphilic Polymer Co-networks From Telechelic Macromonomers Using Thiol–Norbornene Chemistryp129-155ByKelly R. McLeod;Kelly R. McLeodUniversity of Massachusetts Amherst, Department of Polymer Science and Engineering120 Governors DriveAmherstMA 01003USA[email protected]Search for other works by this author on:Gregory N. TewGregory N. TewUniversity of Massachusetts Amherst, Department of Polymer Science and Engineering120 Governors DriveAmherstMA 01003USA[email protected]Search for other works by this author on:
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CHAPTER 8: Bimodal Amphiphilic Polymer Co-networks: Interfacial Phenomena and Applicationsp156-198ByG. Guzman;G. GuzmanPurdue University, Department of Materials Engineering610 Purdue MallWest LafayetteIN47907USA[email protected]Search for other works by this author on:T. Nugay;T. NugayBoğaziçi University, Department of ChemistryBebek34342IstanbulTurkeySearch for other works by this author on:M. CakmakM. CakmakPurdue University, Department of Materials Engineering610 Purdue MallWest LafayetteIN47907USA[email protected]Search for other works by this author on:
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CHAPTER 9: Ultra-stretchable and Multi-responsive Tough Hydrogels Crosslinked by Triblock Copolymer Micellesp199-223ByJun Fu;Jun FuSchool of Materials Science and Engineering, Sun Yat-sen UniversityGuangzhou 510275China[email protected]Search for other works by this author on:Yuanna SunYuanna SunSchool of Textiles and Material Sciences, School of Materials Science and Engineering, Xi'an Polytechnic UniversityXi'an 710048ChinaSearch for other works by this author on:
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CHAPTER 10: Double-network Hydrogels Comprising an Ionic Amphiphilic Polymer First Co-networkp224-238ByElina N. Kitiri;Elina N. KitiriUniversity of Cyprus, Department of Chemistry, 1 University Avenue2109 AglantziaNicosiaCyprus[email protected]Search for other works by this author on:Georgia Manouchou;Georgia ManouchouUniversity of Cyprus, Department of Chemistry, 1 University Avenue2109 AglantziaNicosiaCyprus[email protected]Search for other works by this author on:Costas S. PatrickiosCostas S. PatrickiosUniversity of Cyprus, Department of Chemistry, 1 University Avenue2109 AglantziaNicosiaCyprus[email protected]Search for other works by this author on:
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CHAPTER 11: Theoretical Approaches to Amphiphilic Polymer Co-networksp239-262ByFriederike SchmidFriederike SchmidJohannes Gutenberg University, Department of PhysicsStaudingerweg 7-955128MainzGermany[email protected]Search for other works by this author on:
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CHAPTER 12: Silicone Hydrogel Soft Contact Lenses: An Industrial Application of Amphiphilic Polymer Co-networksp263-276BySteve DiamantiSteve DiamantiSearch for other works by this author on:
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CHAPTER 13: New Approaches Towards the Design of Tough Amphiphilic Polymeric Co-networksp277-308ByShereen Tan;Shereen TanPolymer Science Group, Department of Chemical and Biomedical Engineering, The University of MelbourneParkvilleVIC 3010Australia[email protected]Search for other works by this author on:Nicholas Jun-An Chan;Nicholas Jun-An ChanPolymer Science Group, Department of Chemical and Biomedical Engineering, The University of MelbourneParkvilleVIC 3010Australia[email protected]Search for other works by this author on:Joe Collins;Joe CollinsPolymer Science Group, Department of Chemical and Biomedical Engineering, The University of MelbourneParkvilleVIC 3010Australia[email protected]Search for other works by this author on:Qiang Fu;Qiang FuPolymer Science Group, Department of Chemical and Biomedical Engineering, The University of MelbourneParkvilleVIC 3010Australia[email protected]Search for other works by this author on:Greg. G. QiaoGreg. G. QiaoPolymer Science Group, Department of Chemical and Biomedical Engineering, The University of MelbourneParkvilleVIC 3010Australia[email protected]Search for other works by this author on:
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CHAPTER 14: Biocatalytically-active Amphiphilic Polymer Co-networksp309-330ByChristian Krumm;Christian KrummDepartment of Biochemical and Chemical Engineering, Technische Universität DortmundEmil-Figge-Strasse 66D-44227 DortmundGermany[email protected]Search for other works by this author on:Joerg C. TillerJoerg C. TillerDepartment of Biochemical and Chemical Engineering, Technische Universität DortmundEmil-Figge-Strasse 66D-44227 DortmundGermany[email protected]Search for other works by this author on:
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CHAPTER 15: Functional Membranes Based on Amphiphilic Polymer Co-networksp331-363BySebastian Ulrich;Sebastian UlrichEmpa, Swiss Federal Laboratories for Materials Science and Technology, Laboratory for Biomimetic Membranes and TextilesLerchenfeldstrasse 59014 St. GallenSwitzerland[email protected]Adolphe Merkle Institute, University of FribourgChemin des Verdiers 41700 FribourgSwitzerland[email protected]Search for other works by this author on:Luciano F. Boesel;Luciano F. BoeselEmpa, Swiss Federal Laboratories for Materials Science and Technology, Laboratory for Biomimetic Membranes and TextilesLerchenfeldstrasse 59014 St. GallenSwitzerland[email protected]Search for other works by this author on:Nico BrunsNico BrunsAdolphe Merkle Institute, University of FribourgChemin des Verdiers 41700 FribourgSwitzerland[email protected]Search for other works by this author on:
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