1. Microbial nanotechnology - an overview 2. Nanomaterials and rhizosphere chemistry - an overview 3. Nanomaterials and nanocomposites in the rhizosphere - an overview 4. Nano-microbe conversations for soil health and plant growth and performance 5. Nanoparticle-microbe interactions and their significant role in plant disease treatment 6. Nanoparticles-based plant microbiome engineering for disease resistance 7. Nanoparticles and plant-microbe rhizosphere interaction during abiotic stress 8.

Various nanoparticles and plant-microbe rhizosphere interaction during biotic stress 9. Sensing soil-microbes interactions and the role of various nanomaterials 10. Role of metal nano-based fertilizers on soil and plant-associated microbial communities 11. Role of metal oxide nano-based fertilizers on soil and plant-associated microbial communities 12. Interaction between nano-based agrochemicals and the plant-associated microbiome system 13. Interaction of metal-based nanoparticles with plant rhizosphere community 14. Interaction of metal-oxide-based nanoparticles with plant rhizosphere community 15. Interaction of nanomaterials and plant growth-promoting bacteria for higher plant growth and production 16.

Interaction of various nanoparticles-plants-microorganisms in agriculture system and soil remediation 17. Nanomaterials and nanocomposites in the rhizosphere: biotransformation and nanosafety assessments 18. Role of artificial intelligence in nano-plants-microorganisms coordination and interplay 19. Foliar application of nanomaterials and their effect on the microbes on plant surface transformation of nanomaterials with plants and their tissues.