Carbon Nanotubes in Agriculture: Specifications and Applications: Nanomaterial-Plant Interactions
Editat de Manzer H. Siddiqui, M. Nasir Khan, Soumya Mukherjeeen Limba Engleză Paperback – 24 ian 2025
- Presents a nanotechnology approach for the management of abiotic and biotic stresses in plants
- Explores nanotechnology-assisted rhizosphere engineering and its role in fertilizer development
- Includes expert insights from around the globe
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Specificații
ISBN-13: 9780443190476
ISBN-10: 044319047X
Pagini: 550
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Nanomaterial-Plant Interactions
ISBN-10: 044319047X
Pagini: 550
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Nanomaterial-Plant Interactions
Public țintă
Scientists and Researchers working the areas of nanotechnology, nano-agriculture, nanomaterial-assisted crop improvement, as well as plant stress tolerance, plant biotechnology and crop yield.Cuprins
1. Introduction to carbon nanotubes and their specifications
2. Beneficial roles of carbon nanotubes in regulation of seed germination physiology
3. Carbon nanomaterials: Roles in agriculture and environment management
4. Roles of carbon nanotubes in root growth regulation in various plants
5. Potential roles of Carbon nanotubes in flowering and regulation of fruit ripening
6. Physico-chemical properties of carbon nanotubes and their role in water absorption and capillary action in plants
7. Recent updates on the antimicrobial properties of carbon nanotubes. Potential source for novel agrochemicals
8. Applications of carbon nanotubes in bio fertilizers
9. Role of carbon nanotubes in stress tolerance in crop plants
10. Carbon nanotube encapsulation and production of nano-pesticides
11. Uptake and transport mechanisms of carbon nanotubes in plants
12. Phytotoxicity issues associated with the use of carbon nanotubes in agriculture
13. Impact of carbon nanomaterials in plant development, agricultural and environmental applications
14. Carbon nanotubes as plant growth regulators
15. Toxicity and Risk assessment associated with CNTs in agriculture
16. Commercialization of CNTs in agricultural sector: Current Scenario
17. Role of CNTs in transgenic plants
18. Interplay between CNTs and gasotransmitters (Nitric oxide, hydrogen sulphide, carbon monoxide) in plants under stress
2. Beneficial roles of carbon nanotubes in regulation of seed germination physiology
3. Carbon nanomaterials: Roles in agriculture and environment management
4. Roles of carbon nanotubes in root growth regulation in various plants
5. Potential roles of Carbon nanotubes in flowering and regulation of fruit ripening
6. Physico-chemical properties of carbon nanotubes and their role in water absorption and capillary action in plants
7. Recent updates on the antimicrobial properties of carbon nanotubes. Potential source for novel agrochemicals
8. Applications of carbon nanotubes in bio fertilizers
9. Role of carbon nanotubes in stress tolerance in crop plants
10. Carbon nanotube encapsulation and production of nano-pesticides
11. Uptake and transport mechanisms of carbon nanotubes in plants
12. Phytotoxicity issues associated with the use of carbon nanotubes in agriculture
13. Impact of carbon nanomaterials in plant development, agricultural and environmental applications
14. Carbon nanotubes as plant growth regulators
15. Toxicity and Risk assessment associated with CNTs in agriculture
16. Commercialization of CNTs in agricultural sector: Current Scenario
17. Role of CNTs in transgenic plants
18. Interplay between CNTs and gasotransmitters (Nitric oxide, hydrogen sulphide, carbon monoxide) in plants under stress