<p>ECTION 1: Insights, Synthesis and Properties<br>1. Appraisal of Nanotechnology for Sustainable Environmental Remediation<br>2. Green Nanotechnology for Environmental Remediation<br>3. Insights of green and biosynthesis of nanoparticles<br>4. Conventional techniques for nanomaterials preparation<br>5. Green Synthesis of Metal Nanoparticles for Environmental Remediation<br>6. Synthesis of green nanocomposite material for engineering application<br>7. Sustainable approaches for synthesis of biogenic magnetic nanoparticles and their water remediation applications<br>8. Nanoscale texture characterization of green nanoparticles and their hybrids<br>9. Chemical and Physical properties of Nanoparticles and Hybrid materials</p> <p>SECTION 2: Environmental Remediation Applications and Future Prospective<br>10. Use of Nanotechnology for Wastewater Treatment: Potential Applications, Advantages, and Limitations<br>11. Green bio composite materials for Sustainable remediation application<br>12. Advanced green nano-composite materials for wastewater treatment<br>13. Application of green nanocomposites in removal of toxic chemicals, heavy metals, radioactive materials and pesticides from aquatic water bodies<br>14. Functionalized Green carbon-based nanomaterial for environmental application<br>15. Photocatalytic applications of biogenic nanomaterials<br>16. Synthesis and Photocatalytic Applications of CuxO/ZnO in Environmental Remediation<br>17. Phytogenic Nanoparticles for the Management of Water Pollution<br>18. Magnetic Nanoparticles and their application in sustainable environment<br>19. Future development, prospective and challenges in the application of Green nano-composites in environmental remediation</p> <p>SECTION 3: Miscellaneous Applications<br>20. Nanotechnology for Biosensor Applications<br>21. Ultra-small fluorescent nanomaterials for sensing and bioimaging applications<br>22. Synthesis of advanced carbon-based nano-composites for biomedical application<br>23. Synthesis of metal oxide based nano-composites for energy storage application<br>24. Engineered uses of nanomaterials for sustainable cementitious composites<br>25. The Carbon Nanomaterials with Abnormally High Specific Surface Area for Liquid Adsorption<br>26. Magnetic nanoparticles and its composites towards the remediation of electromagnetic interference pollution<br>27. Role of Nanotechnology in enhancing crop production and produce quality<br>28. Sustainable environmentally friendly approaches to the recycling of spent selective catalytic reduction (SCR) catalysts</p>
