Description
Bionanocatalysis: From Design to Applications discusses recent advances in nano-biocatalysis, fundamental design concepts and their applications in a variety of industry sectors. Strategies for immobilizing enzymes onto nanocarriers, made from polymers, silicas, carbons, and metals, by physical adsorption, covalent binding, cross-linking, or specific ligand spacers are also discussed as are the advantages, problems and solutions derived from the use of non-porous nanomaterials for enzyme immobilization. This is an important reference source for materials scientists and chemical engineers who would like to learn more about how nanobiocatalysts are designed and used.Biocatalysis has emerged as a sustainable technique to synthesize valuable commodity chemicals with wide applications in various industrial domains, such as in agriculture, cosmetics, pharmaceuticals, biofuels, biosensors, biofuel cells, biochemicals, and foods. The synergistic integration of bio-catalysis engineering with nanostructured materials, as unique multifunctional carrier matrices, has emerged as a new interface of nano-biocatalysis (NBC).- Outlines the major nanocarriers used in nanobiocatalyst design- Explores the properties of nanomaterials that make them effective biocatalysts- Assesses the challenges of manufacturing nanobiocatalysts on an industrial scale
Table of Contents
PART 1: BASIC PRINCIPLES1. Nanobiocatalysis—a drive towards applied biocatalysis2. Bi- or multi-enzymatic nanobiocatalytic systems3. Mechanisms of structural and functional coordination between enzymes and nanostructured cues4. Engineering enzyme microenvironments5. Thermal tuning of enzyme activity by magnetic heatingPART 2: PROSPECTIVE NANOCARRIERS TO DESIGN NANO-BIOCATALYSTS6. Carbon dots-based photocatalyst: synthesis, characteristic attributes, mechanisms, and applications7. Silica-based nanocarriers8. Use of magnetic nanoparticles to build magnetic macro porous biocatalyst: prospects and trendsPART 3: EMERGING BIOPROCESSING APPLICATIONS9. Implementation of nanobiocatalysis in food industry10. Nano-biocatalysis for food and feed application11. Nanobiocatalysis for Environmental remediation and protection12. Nanobiocatalysis for therapeutic applications13. Nanobiocatalysts for drug delivery14. Nanobiocatalysis for Biofuel production15. Nanobiocatalysis for pharmacological and therapeutic applications16. Self-assembly of small molecules for enzyme mimicry17. Nanostructured biocatalysis for biotechnological applications18. Immobilization of enzymes on nanomaterials: necessity, opportunities and drawbacks19. Environmental Remediation and Protection20. Biofuels cells21. Extending the Reach of Computational Approaches to Model Enzyme Catalysis22. Sugar-processing microbial enzymes
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