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Full Description
This book summarizes recent and critical aspects of advanced materials for environmental protection and remediation. It explores the various development aspects related to environmental remediation, including design and development of novel and highly efficient materials, aimed at environmental sustainability. Synthesis of advanced materials with desirable physicochemical properties and applications is covered as well. Distributed across 13 chapters, the major topics covered include sensing and elimination of contaminants and hazardous materials via advanced materials along with hydrogen energy, biofuels, and CO2 capture technology.
Discusses the development in design of synthesis process and materials with sustainable approach.
Covers removal of biotic and abiotic wastes from the aqueous systems.
Includes hydrogen energy and biofuels under green energy production.
Explores removal of environmental (soil and air) contaminants with nanomaterials.
Reviews advanced materials for environmental remediation in both liquid and gas phases.
Contents
1. Advanced Materials Towards Environmental Protection: Attributes and Progress 2. Green Approaches to Catalytic Processes under Alternative Reaction Media 3. Sensing of Environmental Contaminants Using Advanced Nanomaterial 4. Nano-Engineered Hybrid Materials for Decontamination of Hazardous Organics 5. Polyaniline-Based Adsorbents and Photocatalysts for the Elimination of Toxic Heavy Metals 6. Emerging MXene-Based Materials for Removal of Environmental Pollutants 7. Metal Oxide-Biochar Nanocomposities for the Effective Removal of Environmental Contaminants 8. Metal Organic Framework (MOFs)-Based Advanced Materials for Clean Environment 9. Photoactive Nanostructured Materials for Antibacterial Action: A Self-Sterilization 10. Advanced Materials for Hydrogen Production and Storage: A New Era of Clean Energy 11. Advancement in Biofuels Production: Sustainable Perception towards Green Energy and Environment 12. Advanced Fluids in Chemical Absorption of CO2: Development in CO2 Capture Technology 13. Metal Oxide-Based Nanocomposites for Photocatalytic Reduction of CO2
