<p>Part 1: Environmental impact of nanomaterials in soil remediation<br>1. Nanomaterials in soil remediation: An introduction<br>2. Interactions of nanomaterials with the soil<br>3. Detection and evaluation of nanoparticles in soil environment<br>4. Impact of nanoparticles on soil resource<br>5. Toxicity/risk assessment of nanomaterials when used in soil treatment<br>6. Interaction of nanoparticles with soil<br>7. Life cycle assessment of soil remediation using nanomaterials<br>8. Influence of nanoparticles on the physical, chemical, and biological properties of soils<br>9. Effect of nanoparticles on crop growth</p> <p>Part 2: Organic compounds contaminated soils<br>10. Nanosensors for detection and evaluation of organic compounds in soil<br>11. Nanosensors for herbicides monitoring in soil<br>12. Soil contamination, risk assessment and nanobioremediation<br>13. SERS nanosensors for organic compounds contaminated soils<br>14. Nanomaterials in the biological treatment of contaminated soil<br>15. Nanomaterials for decontamination of organophosphorus compounds in soil</p> <p>Part 3: Metal-contaminated soils<br>16. Nanomaterials in the bioremediation of metal-contaminated soils<br>17. Nanomaterials-based absorbents<br>18. Nanomaterials-based solidification/stabilization of metal-contaminated soils<br>19. Remediation of metal ions contaminated soil by nanomaterials<br>20. Nanobubble technology for remediation of metal-contaminated soil</p> <p>Part 4: Integrated methods for soil remediation<br>21. Nanomaterials in integrated methods for soil remediation (biological/physiological combination processes)<br>22. Nanotechnology enhanced phytoremediation and photocatalytic degradation techniques for remediation of soil pollutants<br>23. Nanobiochar: A sustainable solution for agricultural and environmental applications<br>24. Current perspectives of soil nanoremediation</p>
