Fr. 290.00

Chaudhery Mustansar Hussain, Chaudhery Mustansar (New Jersey Institute Hussain, Chaudhery Mustansar Shukla Hussain, CM Hussain, Bindu Mangla, Sudheesh K. Shukla...

Functionalized Nanomaterials for Catalytic Application

Anglais · Livre Relié

Expédition généralement dans un délai de 1 à 3 semaines (ne peut pas être livré de suite)

Description

Durch die rasante Entwicklung in der Nanotechnologie ist es mittlerweile möglich, die physikalischen und chemischen Eigenschaften von Nanomaterialien mit molekularer Erkennung und katalytischen Anwendungen zu modulieren. Aus den Forschungsarbeiten ist eine große Zahl katalytischer Plattformen für zahlreiche Analyten entstanden, von Metallionen über kleine Moleküle, ionische Flüssigkeiten und Nukleinsäuren bis zu Proteinen. Funktionalisierte Nanomaterialien (FNM) bilden die Grundlage für wichtige Anwendungen in den Bereichen Umwelt, Energie und Gesundheit. Strategien zur Synthese von FNM spielen in verschiedenen Branchen eine wichtige Rolle, insbesondere in der Textil-, Bau-, Kosmetik-, Biomedizin- und Umweltindustrie.

In diesem Werk wird das Design von funktionalisierten Nanomaterialien (FNM) in Bezug auf die neuesten Fortschritte in der Industrie und die entsprechenden Anwendungen erläutert. Das Buch vermittelt einen umfassenden Überblick über FNM und ihre Anwendungen, wodurch der Leser ein systematisches und kohärentes Bild von nahezu allen relevanten aktuellen Fortschritten erhält. Es wird erläutert, mithilfe welcher Funktionalisierungstechniken und -prozesse Nanomaterialien so verbessert werden, dass sie die Leistung von bereits genutzten Verfahren wesentlich verändern und spannende Konsumgüter hervorbringen, die zum aktuellen Lebensstil der modernen Gesellschaft passen.

Table des matières

Preface xvii

1 Functionalized Nanomaterial (FNM)-Based Catalytic Materials for Water Resources 1
Sreevidya S., Kirtana Sankara Subramanian, Yokraj Katre, Ajaya Kumar Singh and Jai Singh

1.1 Introduction 4

1.2 Electrocatalysts as FNMs 7

1.3 Electro-Fenton/Hetero Electro-Fenton as FNMs 8

1.4 Hetero Photo-Fenton as FNMs 13

1.4.1 Heterogenous-Fentons-Based FNMs 14

1.4.2 Photo-Fentons-Based FNMs 14

1.5 Photocatalysts as FMNs 19

1.5.1 Carbon-Based FNMs as Photocatalysts 24

1.5.1.1 CNT-Based FNMs 24

1.5.1.2 Fullerene-Based FNMs 25

1.5.1.3 Graphene (G)/Graphene Oxide (GO)-Based FNMs 26

1.5.1.4 Graphene-Carbon Nitride/Metal or Metalloid Oxide-Based FNMs 27

1.5.1.5 Graphene-Carbon Nitride/QD-Based FNMs 28

1.5.2 Polymer Composite-Based FNMs as Photocatalyst 29

1.5.3 Metal/Metal Oxide-Based FNMs as Photocatalyst 29

1.6 Nanocatalyst Antimicrobials as FNMs 30

1.7 Conclusions and Future Perspectives 31

References 33

2 Functionalized Nanomaterial (FNM)-Based Catalytic Materials for Energy Industry 53
Amarpreet K. Bhatia, Shippi Dewangan, Ajaya K. Singh and Sónia. A.C. Carabineiro

2.1 Introduction 54

2.2 Different Types of Nanomaterials 55

2.2.1 Zero-Dimensional (0D) Nanostructures 55

2.2.2 One-Dimensional (1D) Nanostructures 56

2.2.3 Two-Dimensional (2D) Nanostructures 56

2.2.4 Three-Dimensional (3D) Nanostructures 56

2.3 Synthesis of Functionalized Nanomaterials 56

2.3.1 Chemical Methods 57

2.3.2 Ligand Exchange Process 58

2.3.3 Grafting of Synthetic Polymers 58

2.3.4 Miscellaneous Methods 58

2.4 Magnetic Nanoparticles 59

2.4.1 Synthesis of Magnetic Nanoparticles 59

2.4.2 Characterization of Magnetic Nanoparticles 60

2.4.3 Functionalization of Magnetic Nanoparticles 63

2.4.3.1 Covalent Bond Formation 64

2.4.3.2 Ligand Exchange 64

2.4.3.3 Click Reaction 64

2.4.3.4 Maleimide Coupling 65

2.5 Carbon-Based Nanomaterials 65

2.5.1 Functionalization of Carbon Nanomaterials 65

2.5.2 Synthesis of Functionalized Carbon Nanotubes and Graphene 67

2.6 Application of Functionalized Nanomaterials in the Energy Industry Through Removal of Heavy Metals by Adsorption 67

2.6.1 Removal of Arsenic by Magnetic Nanoparticles 74

2.6.2 Removal of Cadmium by Magnetic Nanoparticles 75

2.6.3 Removal of Chromium by Magnetic Nanoparticles 75

2.6.4 Removal of Mercury by Magnetic Nanoparticles 76

2.7 Conclusions 76

References 77

3 Bionanotechnology-Based Nanopesticide Application in Crop Protection Systems 89
Abhisek Saha

3.1 Introduction 90

3.2 Few Words About Pesticide 92

3.3 What About Biopesticide Demand 93

3.4 A Brief Look on Associates Responsible for Crop Loss 93

3.5 Traditional Inclination of Chemical-Based Pest Management 94

3.6 Nanotechnology in the Field of Agriculture 95

3.7 Why Nanotechnology-Based Agriculture is the Better Option With Special Reference to Nano-Based Pesticide? 95

3.8 Biological-Based Pest Management 96

3.9 Nano-Based Pest Management 96

3.10 Nanopesticides 97

3.11 Required to Qualify for Selection as Nanobiopesticides 98

3.12 Pestiferous Insect's Management 99

3.12.1 Chemical Nanomaterials 99

3.12.2 Bionanomaterials 99

3.13 Critical Points for Nanobiopesticides 100

3.14 Other Pests 100

A propos de l'auteur

Chaudhery Mustansar Hussain, PhD is an adjunct professor, academic advisor and Lab Director in the Department of Chemistry & Environmental Sciences at the New Jersey Institute of Technology (NJIT), Newark, New Jersey, USA. His research is focused on the applications of nanotechnology & advanced materials in environment, analytical chemistry and various industries. Dr. Hussain is the author of numerous papers in peer-reviewed journals as well as a prolific author and editor of many scientific monographs and handbooks in his research areas. Sudheesh K. Shukla, PhD is a postdoctoral researcher at Shandong University China. His research work focuses on interfacing the chemistry (materials science) and engineering for better healthcare (biology) and environmental applications. Dr. Shukla has extensive experience in materials science (materials design, synthesis and characterization), nanocomposite synthesis, nanobiotechnology, catalysis science and biosensors/sensors. Bindu Mangla is an assistant professor in the Department of Chemistry, J C Bose University of Science & Technology, YMCA, Faridabad (Hr), India. She completed her PhD in Chemistry, from Manav Rachna International Institute of Research and Studies (erstwhile MRIU). She has a keen research interest in the area of materials chemistry, nanotechnology, corrosion chemistry and atmospheric chemistry.

Résumé

Détails du produit

Auteurs	Chaudhery Mustansar Hussain, Chaudhery Mustansar (New Jersey Institute Hussain, Chaudhery Mustansar Shukla Hussain, CM Hussain, Bindu Mangla, Sudheesh K. Shukla
Collaboration	Chaudhery Mustansar Hussain (Editeur), Hussain Chaudhery Mustansar (Editeur), Sudhees K Shukla (Editeur), Sudheesh K Shukla (Editeur), Bindu Mangla (Editeur), Sudheesh K. Shukla (Editeur)
Edition	Wiley, John and Sons Ltd

Langues	Anglais
Format d'édition	Livre Relié
Sortie	31.12.2020

EAN	9781119808978
ISBN	978-1-119-80897-8
Pages	528
Catégories	Sciences naturelles, médecine, informatique, technique > Technique > Général, dictionnaires Nanotechnologie, Umweltforschung, Umweltwissenschaften, Environmental Studies, Materialwissenschaften, Materialeigenschaften, Nanotechnology, Materials science, Nanomaterialien, Nanomaterials, Environmental Science, Nanomaterial, Properties of Materials

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