Nanomaterials in plants, algae, and microorganisms. edited by Durgesh Kumar Tripathi [and four others]. Concepts and controversies. Volume 1 :

Nanomaterials in Plants, Algae and Microorganisms: Concepts and Controversies: Volume 2 not only covers all the new technologies used in the synthesis of nanoparticles, it also tests their response on plants, algae and micro-organisms in aquatic ecosystems. Unlike most works in the field, the book d...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Tripathi, Durgesh Kumar (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London, England : Academic Press, 2018.
Temas:
Nanostructured materials.
Nanoparticles.
Biological systems.
Nanostructures
Nanoparticles
Nanomat�eriaux.
Nanoparticules.
Syst�emes biologiques.
Acceso en línea:Texto completo

MARC

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245 0 0 |a Nanomaterials in plants, algae, and microorganisms.  |p Concepts and controversies.  |n Volume 1 :  |b edited by Durgesh Kumar Tripathi [and four others]. 
264 1 |a London, England :  |b Academic Press,  |c 2018. 
264 4 |c �2018 
300 |a 1 online resource (552 pages) :  |b illustrations. 
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520 |a Nanomaterials in Plants, Algae and Microorganisms: Concepts and Controversies: Volume 2 not only covers all the new technologies used in the synthesis of nanoparticles, it also tests their response on plants, algae and micro-organisms in aquatic ecosystems. Unlike most works in the field, the book doesn't focus exclusively on the higher organisms. Instead, it explores the smaller life forms on which they feed. Topics include the impacts of plant development, how different nanoparticles are absorbed by biota, the impact different metals-including silver and rare earth metals-have on living organisms, and the effects nanoparticles have on aquatic ecosystems as a whole. As nanotechnology based products have become a trillion-dollar industry, there is a need to understand the implications to the health of our biota and ecosystems as the earth is increasingly inundated with these materials. 
505 0 0 |g Machine generated contents note:  |g 1.  |t Availability and Risk Assessment of Nanoparticles in Living Systems: A Virtue or a Peril? /  |r Jose R. Peralta-Videa --  |g 1.1.  |t Introduction --  |g 1.2.  |t Sources of NPs in the Environment --  |g 1.3.  |t Global Extension and Economic Impacts of Natural and Engineered NPs --  |g 1.4.  |t Forecasting the Potential Risk Associated With NPs --  |g 1.5.  |t NP Toxicities in Microorganisms, Plants, and Humans --  |g 1.6.  |t Environmental Fate of NPs --  |g 1.7.  |t Concluding Remarks and Future Perspective --  |t References --  |t Further Reading --  |g 2.  |t Plant-Based Synthesis of Nanoparticles and Their Impact /  |r S. Rajeshkumar --  |g 2.1.  |t Introduction --  |g 2.2.  |t Plant-Mediated Synthesis of Silver Nanoparticles --  |g 2.3.  |t Gold Nanoparticle Synthesis Using Plants --  |g 2.4.  |t Plant-Assisted Synthesis of Zinc Oxide Nanoparticles --  |g 2.5.  |t Other Nanoparticles Synthesized Using Plant Sources --  |g 2.6.  |t Conclusion and Future Prospects --  |t Acknowledgments --  |t References --  |t Further Reading --  |g 3.  |t Potential of Spectroscopic Techniques in the Characterization of "Green Nanomaterials" /  |r Prashant K. Rai --  |g 3.1.  |t Introduction --  |g 3.2.  |t Overview of Methods for Synthesis of Nanoparticles --  |g 3.3.  |t Source for Green Synthesis of Nanomaterials --  |g 3.4.  |t Factors Governing Synthesis of Green Nanoparticles and Their Analysis --  |g 3.5.  |t Overview of Spectroscopic Techniques Applicable to Nanoparticle Analysis --  |g 3.6.  |t Summary --  |t References --  |g 4.  |t DNA in Nanotechnology: Approaches and Developments /  |r Rajeshwar P. Sin Ha --  |g 4.1.  |t Introduction --  |g 4.2.  |t Synthesis of DNA Nanostructures --  |g 4.3.  |t Characterization --  |g 4.4.  |t Correction of Sequence Mismatch --  |g 4.5.  |t DNA Nanostructures in Biological Applications --  |g 4.6.  |t Drug Delivery Applications --  |g 4.7.  |t DNA Nanotechnology in Cancer --  |g 4.8.  |t Role in Solving Mathematical Problems --  |g 4.9.  |t Biosensors --  |g 4.10.  |t Technical Challenges --  |g 4.11.  |t Conclusion and Future Perspectives --  |t References --  |g 5.  |t Plant Response to Engineered Nanoparticles /  |r Praveen Kumar --  |g 5.1.  |t Introduction --  |g 5.2.  |t Size is Not the Only Criterion --  |g 5.3.  |t Method of Application and Entry of Nanoparticles Into Plants --  |g 5.4.  |t Biotransformation of Nanoparticles in Plants --  |g 5.5.  |t Effects of Nanoparticles --  |g 5.6.  |t Effect on Abiotic and Biotic Stress --  |g 5.7.  |t Effects of Carbon-Based Nanomaterials --  |g 5.8.  |t Nanobiotechnology --  |g 5.9.  |t Practical Possibilities and the Way Forward --  |t References --  |g 6.  |t Nanoparticle-Induced Morphological Responses of Roots and Shoots of Plants /  |r Seyed M. Talebi --  |g 6.1.  |t Introduction --  |g 6.2.  |t Effects of Diverse Nanoparticles on Growth and Development of Plants --  |t References --  |g 7.  |t Recent Progress of Nanotoxicology in Plants /  |r Muhammad Azhar --  |g 7.1.  |t Introduction --  |g 7.2.  |t Role of Nanoparticles in Agriculture --  |g 7.3.  |t Types and Characteristics of Toxic Nanoparticles --  |g 7.4.  |t Factors Affecting Phytotoxicity of Nanoparticles --  |g 7.5.  |t Phytotoxic Effects of Nanoparticles --  |g 7.6.  |t Phytotoxic Mechanism of Nanoparticles --  |g 7.7.  |t Detoxification of Nanoparticles in Plants --  |t References --  |t Further Reading --  |g 8.  |t Exploring Plant-Mediated Copper, Iron, Titanium, and Cerium Oxide Nanoparticles and Their Impacts /  |r Sharada Mallubhotla --  |g 8.1.  |t Introduction --  |g 8.2.  |t Plant-Mediated Titanium Dioxide Nanoparticles and Their Impact on Plants and Other Living Systems --  |g 8.3.  |t Plant-Mediated Iron Oxide Nanoparticles and Their Impact on Plants and Other Living Systems --  |g 8.4.  |t Plant-Mediated Cerium Oxide Nanoparticles and Their Impacts on Plants and Other Living Systems --  |g 8.5.  |t Exploring Plant-Mediated Copper Nanoparticles and Their Impacts on Plants and Other Living Systems --  |g 8.6.  |t Conclusion and Future Prospects --  |t Acknowledgment --  |t References --  |t Further Reading --  |g 9.  |t Gold Nanomaterials to Plants: Impact of Bioavailability, Particle Size, and Surface Coating /  |r Seema Nara --  |g 9.1.  |t Introduction --  |g 9.2.  |t Uptake and Translocation of Nanostructures in Plants --  |g 9.3.  |t Effect of Gold Nanostructures on Plants --  |g 9.4.  |t Toxicity Assessment of Gold Nanomaterials on Plants --  |g 9.5.  |t Conclusion and Future Prospects --  |t Acknowledgment --  |t References --  |t Further Reading --  |g 10.  |t Responses of Plants to Iron' Oxide Nanoparticles /  |r Muhammad Azhar --  |g 10.1.  |t Introduction --  |g 10.2.  |t Composition and Characterization of Iron Oxide Nanoparticles --  |g 10.3.  |t Synthesis of Iron Oxide Nanoparticles --  |g 10.4.  |t Application Methods of Iron Oxide Nanoparticles --  |g 10.5.  |t Uptake, Absorbance, Transfer, and Accumulation Mechanism of Iron Oxide Nanoparticles --  |g 10.6.  |t Iron Oxide Nanoparticles and Plant Growth --  |g 10.7.  |t Controversies About the Phytotoxicity of Iron Oxide Nanoparticles --  |t References --  |g 11.  |t Effects of Rare Earth Oxide Nanoparticles on Plants /  |r Gohar Ishaq --  |g 11.1.  |t Introduction --  |g 11.2.  |t Geological Occurrence and Sources of REONPs --  |g 11.3.  |t Characterization, Types, and Synthesis of REONPs --  |g 11.4.  |t Application of REONPs in Soil --  |g 11.5.  |t Dynamics of REONPs in Soils and Plants --  |g 11.6.  |t Effect of REONPs on Plant Growth --  |g 11.7.  |t Controversies About the Use of REONPs --  |g 11.8.  |t Prospects of REONPs --  |g 11.9.  |t Summary/Conclusions --  |t References --  |t Further Reading --  |g 12.  |t Influence of Titanium Dioxide Nanoparticles (nTiO2) on Crop Plants: A Systematic Overview /  |r Luca Marchiol --  |g 12.1.  |t Introduction --  |g 12.2.  |t Influence of nTiO2 on Plant Growth --  |g 12.3.  |t Future Research --  |g 12.4.  |t Conclusions --  |t References --  |g 13.  |t Interaction of Copper Oxide Nanoparticles With Plants: Uptake, Accumulation, and Toxicity /  |r Lucia Giorgetti --  |g 13.1.  |t Introduction --  |g 13.2.  |t Uptake Translocation and Accumulation --  |g 13.3.  |t Effect of CuO NPs on Plants --  |g 13.4.  |t Toxicity --  |g 13.5.  |t Tolerance Mechanism in Plants --  |g 13.6.  |t Conclusion and Future Remarks --  |t References --  |g 14.  |t Impacts of Cerium Oxide Nanoparticles (nCeO2) on Crop Plants: A Concentric Overview /  |r Luca Marchiol --  |g 14.1.  |t Introduction --  |g 14.2.  |t Influence of nCeO2 on Plant Growth --  |g 14.3.  |t Concluding Remarks --  |t References --  |g 15.  |t Plant and Nanoparticle Interface at the Molecular Level: An Integrated Overview /  |r Sheo M. Prasad --  |g 15.1.  |t Introduction --  |g 15.2.  |t Uptake and Translocation of NPs in Plants --  |g 15.3.  |t Effects of Nanoparticles on Plants --  |g 15.4.  |t Mechanism of Phytotoxicity in Plants Generated by NPs --  |g 15.5.  |t Effect of NPs on Genomics --  |g 15.6.  |t Effect of NPs on Transcriptomics --  |g 15.7.  |t Effect of NPs on Proteomics --  |g 15.8.  |t Conclusion and Future Perspectives --  |t References --  |t Further Reading --  |g 16.  |t Nanotechnology in Crop Protection /  |r Utpal Bora --  |g 16.1.  |t Introduction --  |g 16.2.  |t Nanotechnology and Plant Growth --  |g 16.3.  |t Nanotechnology in Crop Protection --  |g 16.4.  |t Nanotechnology in Soil and Water Management --  |g 16.5.  |t Nanotechnology in Plant Breeding and Genetic Transformation --  |g 16.6.  |t Nano-Based Diagnostic Sensors --  |g 16.7.  |t Limitation of Nanomaterials --  |g 16.8.  |t Conclusion --  |t Acknowledgments --  |t References --  |t Further Reading --  |g 17.  |t Impact of Nanoparticles on Oxidative Stress and Responsive Antioxidative Defense in Plants /  |r Shabir H. 
505 0 0 |t Wani --  |g 17.1.  |t Introduction --  |g 17.2.  |t Nanoparticle-Induced Oxidative Stress in Plants: Generation of ROS --  |g 17.3.  |t Oxidative Damage Caused by Generated ROS --  |g 17.4.  |t Activation of Antioxidant Machinery in Response to Nanoparticle Exposure --  |g 17.5.  |t Conclusion and Future Outlook --  |t Acknowledgments --  |t References --  |t Further Reading --  |g 18.  |t Nanoparticles and Organic Matter: Process and Impact /  |r Aran Incharoensakdi --  |g 18.1.  |t Introduction --  |g 18.2.  |t Plant Components: Nature and Uses --  |g 18.3.  |t Complications in Organic Matter Conversion --  |g 18.4.  |t Nanomaterials: A New Candidate in Organic Matter Conversion --  |g 18.5.  |t Characteristics of Nanomaterials --  |g 18.6.  |t Functional Properties of Nanocatalysts for Biomass Conversion --  |g 18.7.  |t Nanoparticles: Components Determining the Functional Properties --  |g 18.8.  |t Nanoparticles on Organic Matter --  |g 18.9.  |t Further Perspectives and Conclusions --  |t Acknowledgments --  |t References --  |g 19.  |t Ecological Risks of Nanoparticles: Effect on Soil Microorganisms /  |r Ramesh K. Kaul --  |g 19.1.  |t Introduction --  |g 19.2.  |t Effect of Nanoparticles on Microorganisms --  |g 19.3.  |t Physical Basis of Toxicity --  |g 19.4.  |t Biochemical Mechanisms of Nanoparticle-Induced Toxicity --  |g 19.5.  |t Conclusion and Future Perspectives --  |t References --  |t Further Reading --  |g 20.  |t Application of Nanotechnology to Enhance the Nutrient Quality of Food Crops and Agricultural Production /  |r Sheo M. Prasad --  |g 20.1.  |t Introduction --  |g 20.2.  |t Nanobiotechnological Materials and Their Synthesis --  |g 20.3.  |t Application of Nanobiotechnology at the Production Site (Agricultural Sector) --  |g 20.4.  |t Applications of Nanobiotechnology at the Marketing Site (Food Sector) --  |g 20.5.  |t Conclusion --  |t Acknowledgments --  |t References --  |g 21.  |t Potential Applications and Avenues of Nanotechnology in Sustainable Agriculture /  |r Shivendra Sahi --  |g 21.1.  |t Introduction --  |g 21.2.  |t Nanotechnology for Sustainable Development of Crops --  |g 21.3.  |t Nanotechnology in Plant Nutrition and Health --  |g 21.4.  |t Conclusion and Future Prospects --  |t Acknowledgment --  |t References --  |t Further Reading --  |g 22.  |t Nanoencapsulation of Essential Oils: A Possible Way for an Eco-Friendly Strategy to Control Postharvest Spoilage of Food Commodities From Pests /  |r Nawal Kishore Dubey --  |g 22.1.  |t Introduction --  |g 22.2.  |t Techniques for Essential Oil Encapsulation --  |g 22.3.  |t Carriers/Wall Materials for Encapsulation --  |g 22.4.  |t Characterization of Micro-/Nanocapsules --  |g 22.5.  |t Conclusion and Future Prospects --  |t References. 
650 0 |a Nanostructured materials. 
650 0 |a Nanoparticles. 
650 0 |a Biological systems. 
650 2 |a Nanostructures  |0 (DNLM)D049329 
650 2 |a Nanoparticles  |0 (DNLM)D053758 
650 6 |a Nanomat�eriaux.  |0 (CaQQLa)201-0258061 
650 6 |a Nanoparticules.  |0 (CaQQLa)201-0262530 
650 6 |a Syst�emes biologiques.  |0 (CaQQLa)201-0010972 
650 7 |a Biological systems.  |2 fast  |0 (OCoLC)fst00832336 
650 7 |a Nanoparticles.  |2 fast  |0 (OCoLC)fst01032624 
650 7 |a Nanostructured materials.  |2 fast  |0 (OCoLC)fst01032630 
700 1 |a Tripathi, Durgesh Kumar,  |e editor. 
856 4 0 |u https://sciencedirect.uam.elogim.com/science/book/9780128114889  |z Texto completo 

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