Polymer biocatalysis and biomaterials

Biocatalysis and biomaterials are hot research topics in polymer science, with many new reactions, new biocatalysts, and new biomaterials being discovered and applied. This symposium volume provides up-to-date reviews and articles of these exciting fields.

Biocatalysis refers to the use of enzymes, microbes or higher organisms to carry out chemical or polymer reactions. It is currently a hot research topic with many academic, industrial, and government laboratories doing basic and applied R&D. In polymer science this field is rapidly growing, and many new reactions and new biocatalysts are being discovered and applied. Likewise, biomaterials comprise an equally exciting field of research that finds many applications in dental, surgical, and medical areas. Both fields are highly interdisciplinary, requiring (at various times) knowledge and expertise in organic and polymer chemistry, material science, biochemistry, molecular biology, microbiology, and chemical engineering. This symposium volume provides state-of-the-art reviews of these exciting fields as well as original research papers. The editors and the authors are all experts and active practitioners of polymer biocatalysis and biomaterials. They include academic, industrial, and government scientists who have brought different expertise and perspectives to these fields. Together, they have provided a most useful book that contains up-to-date developments in fundamental research and industrial R&D efforts. This book will be useful to organic chemists, polymer chemists, material scientists, biochemists, and chemical engineers who desire to learn more about this field. It will be a useful reference book and also suitable either for self-study or as a textbook for an upper level undergraduate or a graduate level course.

• 1. Polymer Biocatalysis and Biomaterials - Current Trends and Developments
• NOVEL BIO-RELATED MATERIALS
• 2. Chemically Reactive Peptides for the Production of Electroactive Conjugates of Specified Conformation and Side-chain Placement
• 3. Elastin-Based Protein Polymers
• 4. Bioartificial Polymer Matrices as Biomaterials with Enzymatically Controlled Functional Properties
• 5. Enzymatic Products from Modified Soybean Oil Containing Hydrazino-ester
• 6. Reinforcement Effect of Soy Protein and Carbohydrates in Polymer Composites
• ENZYME IMMOBILIZATION AND ASSEMBLY
• 7. Green Oxidation of Steroids in Nano-Reactors Assembled from Laccase and Linear-Dendritic Copolymers
• 8. Lipase Immobilization on Ultra-fine Poly(acrylic acid)/Poly(vinyl alcohol) Hydrogel Fibers
• 9. Immobilized Porcine Pancreas Lipase for Polymer Synthesis
• 10. Effects of Porous Polyacrylic Resin Parameters on Candida antarctica Lipase B Adsorption, Distribution and Polyester Synthesis Activity
• 11. Immobilization of Candida antarctica Lipase B on Porous Polystyrene Resins: Protein Distribution and Activity
• NEW SYNTHETIC APPROACHES
• 12. Bio-catalysis on Surfaces: A Micro-Review aahapatr
• 13. Design and Synthesis of Biorelated Polymers by Combinatorial Bioengineering
• 14. Chemoenzymatic Synthesis of Block Copolymers
• 15. Ring-Opening of ?-Substituted Lactones by Novozym 435: Selectivity Issues and Application to Iterative Tandem Catalysis
• POLYESTERS AND POLYAMIDES
• 16. Enzymatic Degradation of Diol-Diacid Type Polyesters into Cyclic Oligomers and its Application for the Selective Chemical Recycling of PLLA-Based Polymer Blends
• 17. Cutinase: A Powerful Biocatalyst for Polyester Synthesis by Polycondensation of Diols and Diacids and ROP of Lactones
• DIACIDS AND ROP OF LACTONES
• 18. "Sweet Polyesters": Lipase-Catalyzed Condensation-Polymerizations of Alditols
• 19. Candida antarctica Lipase B Catalyzed Synthesis of Poly(butylene succinate): Shorter Chain Building Blocks also Work
• 20. Enzyme-Catalyzed Oligopeptide Synthesis: Rapid Regioselective Oligomerization of l-Glutamic Acid Diethyl Ester Catalyzed by Papain
• 21. Enzyme-Catalyzed Polyamides and their Derivatives
• POLYSACCHARIDES, GLYCOPOLYMERS, AND SUGARS
• 22. Synthesis of Unnatural Hybrid Polysaccharides via Enzymatic Polymerization
• 23. Glycopolymers: the Future Anti-Adhesion Drugs
• 24. Novel Materials Based on Enzymatically Synthesized Amylose and Amylopectin
• 25. Sugar Based Polymers: Overviews and Recent Advances of Vinyl Sugars Materials
• 26. Synthetic Peptides Derived from Diatom Cylindrotheca fusiformis: Kinetics of Silica Formation and Morphological Characterisation
• 27. Enzymatic Dihydroxylation of Arylsilanes