Nanohybrid Materials for Treatment of Textiles Dyes
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| Autore: |
Ahmad Akil
|
| Titolo: |
Nanohybrid Materials for Treatment of Textiles Dyes
|
| Pubblicazione: | Singapore : , : Springer, , 2023 |
| ©2023 | |
| Edizione: | 1st ed. |
| Descrizione fisica: | 1 online resource (489 pages) |
| Disciplina: | 628.3 |
| Altri autori: |
JawaidMohammad
Mohamad IbrahimMohamad Nasir
YaqoobAsim Ali
AlshammariMohammed B
|
| Nota di contenuto: | Intro -- Preface -- Contents -- About the Editors -- Introduction of Nanohybrid Materials -- 1 Introduction -- 2 Nanotechnology -- 3 Nanoparticles -- 4 Types, Synthesis, and Characterization of Nanoparticles -- 4.1 Hybrid Materials -- 4.2 Nanohybrid Materials -- 5 Classification of Hybrid Nanomaterials -- 5.1 Metal and Metal Oxide Nanohybrid Materials -- 5.2 Polymer-Based Nanohybrid -- 6 Advantages of Polymer-Based Nanohybrid Materials -- 6.1 Carbon-Based Bio-Nanohybrid Materials -- 7 Synthesis of Nanohybrid Materials -- 8 Advantages of Nanohybrid -- 9 Conclusion -- References -- Survey of Nanohybrid Materials in Textile Dyes Removal -- 1 Introduction -- 2 Conventional Methods for Dye Removal and Their Limitations -- 2.1 Physical Methods for Dye Removal -- 2.2 Chemical Methods for Dye Removal -- 2.3 Biotic Processes -- 3 Why Nanoparticles for Bioremediation? -- 4 Nanohybrid Materials for Dye Removal -- 4.1 Properties of Nanohybrid Materials -- 4.2 Classification of Nanohybrid Materials -- 5 Types of Nanohybrid Materials -- 5.1 Hybrid Nanocomposite that Are Carbon Based -- 5.2 Hybrid Nanocomposites that Are Activated Carbon Based -- 5.3 Hybrid Nanomaterials that Are Carbon Nanotube Based -- 5.4 Nanocomposites that Are Graphene Based -- 5.5 Nanohybrids Made of Natural and Synthetic Clay -- 5.6 Fly Ash-Based Nanohybrid -- 5.7 Hybrids of Bio-adsorbents -- 5.8 Nanohybrid Materials that Are Magnetic and Non-magnetic Metal Oxide Based -- 5.9 Nanohybrid that Are Derived from Metals and Organic Compounds -- 5.10 Polymers and Their Nanocomposites -- 6 Fabrication and Characterization of Nanohybrid Materials -- 7 Mechanism of Dye Removal by Nanohybrid Materials -- 8 Conclusion and Future Perspective -- References -- Textile Dyes and Their Effect on Human Beings -- 1 Introduction -- 2 Classification of Dyes -- 2.1 Based on Origin -- 2.2 Synthetic Dyes. |
| 2.3 Based on the Textile Fiber's Coating -- 3 Chemical Classification of Dyes -- 4 Classification of Dyes Based on Solubility -- 4.1 Water-Soluble Colors -- 4.2 Insoluble Dyes in Water -- 5 Characteristics of Dye Containing Textile Industry Wastewater -- 6 Harmful Impacts on Humans Ecotoxicological and Health Concern of Textile Industry -- 6.1 Harmful Impact on Ecosystem -- 6.2 Harmful Impact on Human Health -- 7 Effective Control Measures -- 8 Conclusion -- References -- Synthesis and Characterization of Nanohybrid Materials -- 1 Introduction -- 2 Types and Synthesis of Nanohybrid Materials -- 2.1 Carbon-Carbon Nanohybrids -- 2.2 Carbon-Metal Nanohybrids -- 2.3 Metal-Metal Nanohybrids -- 2.4 Organic Molecule-Coated Nanohybrids -- 2.5 Biochar-Based Nanohybrid Material -- 3 Characterization of Nanohybrid Materials -- 4 Application of Nanohybrid Material in Water Treatment -- 5 Conclusion -- References -- Graphene-Supported Nanohybrid Materials for Removal of Textile Dyes -- 1 Introduction -- 2 Nanohybrid Materials -- 3 Graphene-Supported Nanohybrids -- 4 Characterization Techniques -- 4.1 SEM and TEM -- 4.2 XRD and Raman -- 4.3 FTIR, Contact Angle, and UV-Vis -- 5 Treatment of Textile Dyes Using Graphene-Based Nanohybrids -- 6 Conclusion and Future Perspective -- References -- Synthesis and Characterization of Nanohybrid Materials for Anionic Dye Removal -- 1 Nanohybrid Material -- 2 Types of Nanohybrids -- 2.1 Polymer Matrix Nanohybrids -- 2.2 Ceramic Matrix Nanohybrids -- 2.3 Metal Matrix Nanohybrids -- 3 Synthetic Methods -- 3.1 Colloidal Methods (One-Pot Synthesis) -- 3.2 Chemical Methods -- 3.3 Physical Methods -- 4 Characterization Techniques for Nanohybrid Materials -- 4.1 Ultraviolet-Visible Spectroscopy with Diffuse Reflectance (UV-Vis) -- 4.2 X-Ray Diffraction (XRD) -- 4.3 Fourier Transform Infrared Spectroscopy (FT-IR). | |
| 4.4 Scanning Electron Microscopy (SEM) -- 4.5 High-Resolution Transmission Electron Microscopy (HR-TEM) -- 5 Applications of Nanohybrid Materials for Pollutant Removal -- 5.1 The Use of Heterogenous Photocatalysis for Dye Degradation -- 5.2 The Use of Nanohybrid Materials for the Removal of Harmful Components from Waters -- 5.3 Nanohybrid Materials in the Photocatalytic Degradation of Anionic Dyes -- 5.4 Factors Involved in the Photocatalytic Degradation of Anionic Dyes -- 5.5 Nanohybrid Materials for the Removal of Anionic Dyes by Adsorption Process -- 5.6 Factors Involved in the Adsorption of Anionic Dyes -- 6 Conclusion. The Sustainable Approach to the Removal of Textile Dyes -- References -- Decolourization of Textile Dyes Using CNT-Based Hybrid Materials -- 1 Introduction -- 2 Water Pollution -- 3 Dyes -- 3.1 Types of Dyes -- 3.2 Toxic Effects of Dyes -- 4 Techniques for Wastewater Treatment -- 4.1 CNT Composites -- 5 Applications -- 5.1 Activity of CNT-Based Nanofluids on Anti-bacterial and Anti-fungal -- 5.2 Real Wastewater Applications -- 6 Future Challenges and Perspectives -- 7 Conclusions -- References -- Synthesis and Catalytic Applications of PANI-Based Hybrid Materials for the Catalytic Removal of Organic Dyes from Wastewaters -- 1 Introduction -- 2 Mechanism of Catalytic Adsorption by PANI-Based Adsorbents -- 3 Polyaniline-Based Adsorbents for Dye Adsorption -- 3.1 Polyaniline/Bipolymer Composites -- 3.2 Polyaniline/Magnetic Composites -- 3.3 Polyaniline/Metal Based Composites -- 3.4 PANI/Carbon Based Hybrid Nanocomposite -- 3.5 PANI/Biodegradable Waste -- 4 Future Perspective -- 5 Summary -- References -- Recovery and Removal of Textile Dyes Through Adsorption Process -- 1 Introduction -- 2 Textile Industries -- 3 Dyes Used in Textile Industries -- 4 Ecotoxicological Effects of Textile Dyes -- 5 Biomagnification -- 6 Adsorption. | |
| 6.1 Adsorption Isotherms -- 6.2 Mechanism of Adsorption -- 6.3 Adsorbents -- 6.4 Classification of Adsorbents -- 6.5 Classification Based on Pore Sizes of Adsorbents [24]. -- 6.6 Low-Cost Materials as Potential Adsorbents -- 7 Nanomaterials -- 7.1 Hybrid Nanomaterials -- 8 Factors Affecting Adsorption -- 8.1 pH of Solution -- 8.2 Initial Concentration -- 8.3 Temperature -- 8.4 Nanohybrid Materials Dosage -- 8.5 Contact Time -- 9 Efficacy of the Methods -- 10 Recovery Through Adsorption -- 11 Biosorbents and Dye Removal -- 12 Potential in Large-Scale Applications -- 13 Conclusion -- References -- Photocatalytic Degradation of Textile Dyes Using Nanohybrid Materials -- 1 Overview of Photocatalysis in Degradation of Pollutants in Wastewater -- 2 Nanohybrid Materials as Photocatalysts for the Degradation of Textile Dyes -- 2.1 Metal-Metal Nanohybrids -- 2.2 Carbon-Metal Nanohybrids -- 2.3 Metal-Polymer Nanohybrids -- 2.4 Clay-Metal Nanohybrids -- 3 Conclusion and Future Prospect -- References -- Montmorillonite (MMt) Clay-Based Hybrid Materials for Textile Dyes' Removal -- 1 Introduction -- 2 Textile Dye Removal with MMt-Based Materials -- 2.1 Cationic Dye Removal with MMt-Based Materials -- 2.2 Anionic Dye Removal with MMt-Based Materials -- 3 Conclusions and Future Perspectives -- References -- Metal-Decorated Nanohybrid Materials for Textile Dyes' Removal from Wastewater -- 1 Introduction -- 2 Textile Dyes' Removal by Hybrid-Based Materials -- 2.1 Cationic Dyes' Removal -- 2.2 Anionic Dye's Removal -- 3 Conclusion -- References -- Nano-engineered Hybrid Materials for Cationic Dye Removal -- 1 Introduction -- 2 Cationic Dyes -- 2.1 Types of Cationic Dyes -- 2.2 Properties of Cationic Dyes -- 2.3 Uses of Cationic Dyes -- 3 Nanomaterials -- 3.1 Synthesis of Metal Nanoparticles -- 3.2 Chemical Synthesis Approach -- 3.3 Co-precipitation. | |
| 3.4 Polyol Method -- 3.5 Micro-emulsion -- 3.6 Thermal Decomposition -- 3.7 Electrochemical Synthesis -- 3.8 Physical Synthesis Approach -- 4 Biological Synthesis Approach -- 4.1 Plants -- 4.2 Microorganism -- 5 Nanomaterials for Dye Removal -- 5.1 Nano-adsorbents -- 5.2 Nano-photocatalysts -- 5.3 Nano-membranes -- 6 Summary and Outlook -- References -- Textile Dyes Removal Using Silica-Dendrimer Hybrid Materials -- 1 Introduction -- 2 Commonly Used Colors -- 2.1 Azo Dyes -- 2.2 Reactive Dyes -- 2.3 Acid Dyes -- 2.4 Cationic Dyes (Basic) -- 2.5 Sulfur Colors -- 2.6 Color Removal Technology of Textile Wastewater -- 2.7 An Overview of Dendrimers -- 2.8 The History of Dendrimers -- 2.9 Types of Dendrimers -- 2.10 An Introduction to Porous Materials (Prussian) and Mesoporous Silica Materials and Their Synthesis Methods -- 2.11 Mesoporous Silica -- 2.12 Effects of Pollutants on Dendrimer -- 2.13 Dendrimers with Silica-Supported -- 2.14 Removal of Dyes from Textile Effluents with Natural Nano Biopolymers -- 2.15 Nanofiber Membranes -- 2.16 Porous Nanofibers -- 2.17 Application of Nanotechnology in the Textile Industry -- 2.18 The Application of Nanotechnology in the Properties of Textile Materials -- 2.19 Self-Cleaning Cloths -- 2.20 Antistatic Final Coatings -- 2.21 Nanotechnology for Wrinkle-Free Processing -- 2.22 Antibacterial Final Coatings -- 2.23 Modified Silica for Textile Dye Treatment -- 3 Conclusion and Future Perspective -- References -- Nanohybrid-Based Catalysts for Degradation of Dyes from Aqueous Solution -- 1 Introduction -- 2 Classification of Dyes -- 3 Nanohybrid-Based Catalysts Used in Advanced Oxidation Processes for the Degradation of Dyes -- 3.1 Fenton-Based Processes -- 3.2 Photocatalytic Oxidation -- 3.3 Sonocatalytic Oxidation -- 3.4 Catalytic Wet Air Oxidation -- 4 Future Aspects and Conclusions -- References. | |
| Dye Removal Using Magnetized Nanohybrid Adsorbent. | |
| Titolo autorizzato: | Nanohybrid Materials for Treatment of Textiles Dyes |
| ISBN: | 981-9939-01-1 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910746295303321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |
Serie:
Smart Nanomaterials Technology Series