Provides a thorough look at the use of nanotechnology in an agricultural setting, ranging from nanobiotechnology to increased crop yield with consideration to the challenges and opportunities faced.
Provides a thorough look at the use of nanotechnology in an agricultural setting, ranging from nanobiotechnology to increased crop yield with consideration to the challenges and opportunities faced.
1. Fabrication of nanoparticles for sustainable agricultural production. 2. Effect of nanocomposites on sustainable growth of crop plants and productivity. 3. Role of nanofertilizers for sustainable growth of crop plants and production. 4. Nanotechnology is an emerging tool for stress management in crop plants. 5. Impact of nanomaterials on Plant microbe partnership. 6. Emerging role of Silver nanoparticles on growth and yield of crop plants. 7. Effect of nanomaterials on physiological status of crop plants. 8. Challenges and risk assessment of nanomaterials-based chemicals used for sustainable agriculture. 9. Nanobioremadiation: a sustainable approach for removal of toxic chemicals from the environment. 10. Chitosan nanoparticles as nanosorbent for potential removal of environmental pollutants. 11. Plant-based nanomaterials for wastewater treatment. 12. Carbon quantum dots for efficient degradation of organic contaminants. 13. Carbon-based nanomaterials a promising tool for sensing toxic metal ions from aqueous environment.
1. Fabrication of nanoparticles for sustainable agricultural production. 2. Effect of nanocomposites on sustainable growth of crop plants and productivity. 3. Role of nanofertilizers for sustainable growth of crop plants and production. 4. Nanotechnology is an emerging tool for stress management in crop plants. 5. Impact of nanomaterials on Plant microbe partnership. 6. Emerging role of Silver nanoparticles on growth and yield of crop plants. 7. Effect of nanomaterials on physiological status of crop plants. 8. Challenges and risk assessment of nanomaterials-based chemicals used for sustainable agriculture. 9. Nanobioremadiation: a sustainable approach for removal of toxic chemicals from the environment. 10. Chitosan nanoparticles as nanosorbent for potential removal of environmental pollutants. 11. Plant-based nanomaterials for wastewater treatment. 12. Carbon quantum dots for efficient degradation of organic contaminants. 13. Carbon-based nanomaterials a promising tool for sensing toxic metal ions from aqueous environment.
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