Application of Engineering Principles and Practices In Biotechnology

Discusses the combination of both engineering and science of biological processes from wastewater treatment to tissue engineering. It offers experimental and theoretical solutions for environmental pollution, new frontiers in bioengineering and biotechnology and use of biotechnology and bio-based routes to sustainable composites.

PART I: SOLUTIONS FOR ENVIRONMENTAL POLLUTION 1. Novel Approach of Interfacing Organic-Inorganic Hybrid Materials in Biological Systems for Effective Wastewater Treatment 2. Biocatalysts in Remediation of Wastewater PART II: FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY 3. Biomaterials from Sustainable Natural Sources for Tissue Engineering 4. Mechanical Properties and Application of Biomaterials for Bone 5. Role of Biodegradable Polymeric Nanohydrogel in Bone Regeneration: An Engineering Conception PART III: BIOTECHNOLOGY AND BIO-BASED ROUTES TO SUSTAINABLE COMPOSITES 6. Coir Reinforced Biocomposites: Engineering Properties and Applications 7. Porous Polymeric Composite: A Next-Generation Material for Bioactivity, Environment and Energy 8. Recent Advances in Biodegradable Polymer-Based Nanocomposites for Energy and Environmental Applications PART IV: CASE STUDIES 9. Biotechnology Applications in Invertebrate Biological Control Agents: An Environmentally Friendly Approach 10. Fluid Dynamics Modelling to Assess the Impact of Urban Geometry on Urban Microclimate" 11. Pharmacokinetic Aspects of Biotechnology Products: Interaction with Artificial Drugs 12. Biosensors Technology: The Future of Bio-Informational Engineering 13. Advanced Energy Materials Derived from Microorganisms, Plants and Animals