Nanoscience in food and agriculture 3 /

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Bibliographic Details
Imprint:Switzerland : Springer, 2016.
Description:1 online resource (xiii, 289 pages) : illustrations (some color)
Language:English
Series:Sustainable agriculture reviews, 2210-4410 ; volume 23
Sustainable agriculture reviews ; v. 23.
Subject:
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/11270441
Hidden Bibliographic Details
Other authors / contributors:Ranjan, Shivendu, editor.
Das Gupta, Nandita, editor.
Lichtfouse, Eric, editor.
ISBN:9783319480091
331948009X
9783319480084
3319480081
Notes:Includes index.
Includes bibliographical references and index.
Print version record.
Summary:This book is the third volume on Nanoscience in Food and Agriculture, published in the series Sustainable Agriculture Reviews. Nanomaterials with unique properties are now being used to improve food and agricultural production. Research on nanomaterials is indeed revealing new applications that were once thought to be imaginary. Specifically, applications lead to higher crop productivity with nanofertilisers, better packaging, longer food shelf life and better sensing of aromas and contaminants. These applications are needed in particular in poor countries where food is scarce and the water quality bad. Nanotechnology also addresses the age old issue of water polluted by industrial, urban and agricultural pollutants. For instance, research produces nanomaterials that clean water more efficiently than classical methods, thus yielding water for drinking and irrigation. However, some nanomaterials have been found to be toxic. Therefore, nanomaterials should be engineered to be safe for the environment. In this book we present ten chapters describing the synthesis and application of nanomaterials for health, food, agriculture and bioremediation.
Other form:Print version: Nanoscience in food and agriculture 3. Switzerland : Springer, 2016 9783319480084
Standard no.:10.1007/978-3-319-48009-1

MARC

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245 0 0 |a Nanoscience in food and agriculture 3 /  |c Shivendu Ranjan, Nandita Dasgupta, Eric Lichtfouse, editors. 
264 1 |a Switzerland :  |b Springer,  |c 2016. 
300 |a 1 online resource (xiii, 289 pages) :  |b illustrations (some color) 
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490 1 |a Sustainable agriculture reviews,  |x 2210-4410 ;  |v volume 23 
500 |a Includes index. 
588 0 |a Print version record. 
505 0 |a Preface; Contents; About the Editors; Chapter 1: Fabrication, Characterization and Applications of Metal Oxide-Doped ZnO Hybrid Nanomaterials; 1.1 Introduction; 1.2 Crystal Structure and Lattice Parameters; 1.3 Properties of ZnO; 1.3.1 Mechanical Properties; 1.3.2 Lattice Dynamics; 1.3.3 Thermal Properties; 1.4 Applications of ZnO; 1.5 Energy Bandgap of ZnO; 1.5.1 Opportunities for Bandgap Engineering; 1.6 Photocatalytic Applications of ZnO Nanomaterials; 1.6.1 Pure ZnO Nanomaterials; 1.6.1.1 Problems in the Photocatalytic Application of ZnO Nanomaterials; Aggregation of Nanomaterials 
505 8 |a Poor Dispersion of Nanomaterials in Solvents1.6.2 Metal Oxide Doped ZnO Nanomaterials; 1.6.3 Nonmetal Doped ZnO Nanomaterials; 1.6.4 In Situ Surface Modified ZnO Nanomaterials; 1.6.5 In Situ Surface Modified Metal Oxide Doped ZnO Hybrid Nanomaterials; 1.7 Hydrothermal Technology for Synthesis Metal Oxide Doped ZnO Hybrid Nanomaterials; 1.7.1 Factors Affecting Hydrothermal Fabrication of Surface Modified ZnO Nanomaterials; 1.7.1.1 Solvent; 1.7.1.2 Precursors; 1.7.1.3 Temperature; 1.7.1.4 Pressure; 1.7.1.5 Time Duration; 1.7.1.6 Surface Modifier; 1.7.2 Hydrothermal Experimental Methodology 
505 8 |a 1.7.2.1 Fabrication of Surface Modified Metal Oxide Doped ZnO Hybrid Nanomaterials1.8 Characterization of Surface Modified Metal Oxide Doped ZnO Hybrid Nanomaterials; 1.8.1 Powder X-Ray Diffraction (XRD) of Surface Modified Metal Oxide Doped ZnO Nanomaterials; 1.8.2 FTIR of Surface Modified Metal Oxides Doped ZnO Hybrid Nanomaterials; 1.8.3 Scanning Electron Microscopy (SEM) of the Surface Modified Metal Oxides Doped ZnO Hybrid Nanomaterials; 1.8.4 Bandgap Energy Studies of Surface Modified Metal Oxide Doped ZnO Nanomaterials; 1.8.5 Zeta Potential of Surface Modified ZnO Nanomaterials 
505 8 |a 1.9 Factors Affecting the Photocatalytic Process1.9.1 Catalyst Loading; 1.9.2 Substrate Concentration; 1.9.3 Effect of Light Source; 1.9.4 pH of the Medium; 1.9.5 Effect of Surfactant Concentration on Photocatalytic Degradation; 1.10 Conclusion; References; Chapter 2: Nanomaterials: Classification, Biological Synthesis and Characterization; 2.1 Introduction; 2.2 Classification of Nanomaterials; 2.2.1 Nanoparticles; 2.2.2 Nanoclays; 2.2.3 Nanoemulsion; 2.2.4 Synthesis of Nanoparticles; 2.2.4.1 Chemical Synthesis Methods; Chemical Reduction; Microemulsion; Sol-Gel Process; Polymerization 
505 8 |a Oxidation ProcessUV-Initiated Photoreduction; Microwave-Assisted Synthesis; Sonochemical Processing; Irradiation Method; Electric Dispersion Reaction; 2.2.4.2 Physical Method; Evaporation-Condensation; Combustion Synthesis; Arc Discharge/Plasma; Laser/Electron Beam Heating; Laser Ablation Process; 2.2.5 Biological Synthesis of Nanoparticles; 2.2.5.1 Plant Mediated Synthesis of Nanoparticles; 2.2.5.2 Bacteria in Synthesis of Nanoparticle; 2.2.5.3 Fungi Mediated Synthesis of Nanoparticles; 2.2.5.4 Yeast in Synthesis of Nanoparticle; 2.2.5.5 Actinomycetes in Synthesis of Nanoparticle 
520 |a This book is the third volume on Nanoscience in Food and Agriculture, published in the series Sustainable Agriculture Reviews. Nanomaterials with unique properties are now being used to improve food and agricultural production. Research on nanomaterials is indeed revealing new applications that were once thought to be imaginary. Specifically, applications lead to higher crop productivity with nanofertilisers, better packaging, longer food shelf life and better sensing of aromas and contaminants. These applications are needed in particular in poor countries where food is scarce and the water quality bad. Nanotechnology also addresses the age old issue of water polluted by industrial, urban and agricultural pollutants. For instance, research produces nanomaterials that clean water more efficiently than classical methods, thus yielding water for drinking and irrigation. However, some nanomaterials have been found to be toxic. Therefore, nanomaterials should be engineered to be safe for the environment. In this book we present ten chapters describing the synthesis and application of nanomaterials for health, food, agriculture and bioremediation. 
504 |a Includes bibliographical references and index. 
650 0 |a Nanotechnology.  |0 http://id.loc.gov/authorities/subjects/sh91001490 
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650 7 |a TECHNOLOGY & ENGINEERING  |x Reference.  |2 bisacsh 
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650 7 |a Food industry and trade  |x Technological innovations.  |2 fast  |0 (OCoLC)fst00930944 
650 7 |a Nanotechnology.  |2 fast  |0 (OCoLC)fst01032639 
655 0 |a Electronic books. 
655 4 |a Electronic books. 
700 1 |a Ranjan, Shivendu,  |e editor. 
700 1 |a Das Gupta, Nandita,  |e editor.  |0 http://id.loc.gov/authorities/names/nr2005029506 
700 1 |a Lichtfouse, Eric,  |e editor.  |0 http://id.loc.gov/authorities/names/no2003035861 
776 0 8 |i Print version:  |t Nanoscience in food and agriculture 3.  |d Switzerland : Springer, 2016  |z 9783319480084 
830 0 |a Sustainable agriculture reviews ;  |v v. 23.  |0 http://id.loc.gov/authorities/names/no2010022106 
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