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Full Description
Nanomaterials for Environmental Remediation: Monitoring, Protection, and Sustainability provides an in-depth analysis of various nanomaterial-based approaches, including nanoparticles, nanocomposites, and nanofibers, in tackling environmental pollutants such as heavy metals, organic compounds, and emerging contaminants. Key topics covered include the synthesis and characterization of nanomaterials, their mechanisms of pollutant removal, environmental fate and transport, and potential risks and implications for human health and ecosystems. Special emphasis is placed on the principles of sustainability, ensuring that nanotechnology interventions are environmentally benign and socially responsible. Through case studies, practical examples, and emerging trends, this book offers insights into the opportunities and challenges associated with the application of these materials for environmental monitoring, remediation, protection and sustainability. The book will be a valuable reference resource for academic and industrial researchers, materials scientists and engineers, chemists, environmental scientists and engineers, manufacturers and other professionals working on the development of nanomaterials for environmental remediation applications.
Contents
Section 1: Introduction to Nanotechnology for Environmental Sustainability, Contaminant Detection, and Monitoring
1. Nanotechnology and Environmental Challenges
2. Principles of Sustainable Development and Environmental Remediation
3. Nanosensors for Environmental Monitoring
4. Nanomaterials for Real-time Contaminant Detection
Section 2: Nanotechnology Applications in Water Remediation
5. Nanomaterial-based Filtration Systems for Water Treatment
6. Nanomembranes for Desalination and Purification
7. Nanomaterials in Pollution Monitoring and Controlling in River Water
Section 3: Nanomaterials for Soil Remediation
8. Nanoparticle Remediation of Soil Contaminants
9. Nanoscale Heavy Elements Affecting Soil Properties
10. Soil Stabilization using Nanomaterials
Section 4: Nanotechnology for Air Pollution Control
11. Nanomaterials for Air Quality Improvement
12. Nano-based Catalytic Converters for Automotive Emissions
13. Role of Nanomaterials in Pollution Control: Ecosystem and Industrial Revolution
Section 5: Environmental Sustainability, Assessment and Future Perspectives
14. Life Cycle Assessment of Nanomaterial Applications and Ethical and Social Implications of Nanotechnology in Environmental Cleanup
15. Toxicity and Environmental Impact of Nanomaterials
16. Comparison of Advanced and Conventional Techniques Used in Environmental Remediation
17. Future Directions and Challenges in Sustainable Nanotechnology
18. Case Studies: Toward a Greener Future with Nanomaterials and Integration of Nanotechnology into Sustainable Development Goals
