Photocatalytic functional materials for environmental remediation

Photocatalytic functional materials for environmental remediation /

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Bibliographic Details
Corporate Author: ProQuest (Firm)
Other Authors: Pandikumar, Alagarsamy (Editor), Jothivenkatachalam, Kandasamy, 1973- (Editor)
Format: Electronic eBook
Language:English
Published: Hoboken, NJ : John Wiley & Sons, Inc., 2019.
Subjects:
Photocatalysis.
Nanocomposites (Materials) > Environmental aspects.
Nanostructured materials > Environmental aspects.
Carbon dioxide mitigation.
Online Access:Connect to this title online (unlimited simultaneous users allowed; 325 uses per year)
Table of Contents:
  • Machine generated contents note: Abbreviations / Nagamalai Vasimalal
  • 1.1. Introduction / Nagamalai Vasimalal
  • 1.1.1. Impact of Dye Effluents on the Environment and Health / Nagamalai Vasimalal
  • 1.2. Principles and Mechanism of Photocatalysis / Nagamalai Vasimalal
  • 1.2.1. Direct Photocatalytic Pathways / Nagamalai Vasimalal
  • 1.2.1.1. Langmuir-Hinshel Wood Process / Nagamalai Vasimalal
  • 1.2.1.2. Eley-Rideal Process / Nagamalai Vasimalal
  • 1.2.2. Indirect Photocatalytic Mechanisms / Nagamalai Vasimalal
  • 1.3. Importance of Titanium Dioxide / Nagamalai Vasimalal
  • 1.3.1. Rutile / Nagamalai Vasimalal
  • 1.3.2. Anatase / Nagamalai Vasimalal
  • 1.3.3. Brookite / Nagamalai Vasimalal
  • 1.4. Titanium Dioxide for the Photocatalytic Degradation of Organic Dyes / Nagamalai Vasimalal
  • 1.4.1. Approaches Enhance the Photocatalytic Activity of TiO2 / Nagamalai Vasimalal
  • 1.4.2. Metal and Multi-Atom Doped TiO2 / Nagamalai Vasimalal
  • 1.5. Carbon Nanomaterials for the Photocatalytic Degradation of Organic Dyes / Nagamalai Vasimalal
  • 1.5.1. Activated Carbon / Nagamalai Vasimalal
  • 1.5.2. Graphite / Nagamalai Vasimalal
  • 1.5.3. Graphene / Nagamalai Vasimalal
  • 1.5.4. Carbon Nanotubes and Fullerenes / Nagamalai Vasimalal
  • 1.5.5. Carbon Black / Nagamalai Vasimalal
  • 1.5.6. Carbon Nanofibers / Nagamalai Vasimalal
  • 1.5.7. Carbon Quantum Dots / Nagamalai Vasimalal
  • 1.5.8. Mesoporous Carbon / Nagamalai Vasimalal
  • 1.6. Conclusion and Trends / Nagamalai Vasimalal
  • References / Nagamalai Vasimalal
  • 2.1. Introduction / S. Thangaraf Nishanthi
  • 2.2. Photocatalysis / S. Thangaraf Nishanthi
  • 2.3. Mechanism and Fundamentals of Photocatalytic Reactions / S. Thangaraf Nishanthi
  • 2.4. Synthesis of Different Photocatalysts / S. Thangaraf Nishanthi
  • 2.4.1. Hydrothermal/Solvothermal Methods / S. Thangaraf Nishanthi
  • 2.4.2. Electrodeposition / S. Thangaraf Nishanthi
  • 2.4.3. Chemical Bath Deposition / S. Thangaraf Nishanthi
  • 2.4.4. Sol-Gel Process / S. Thangaraf Nishanthi
  • 2.4.5. Chemical Precipitation / S. Thangaraf Nishanthi
  • 2.5. Factors Affecting Photocatalytic Degradation / S. Thangaraf Nishanthi
  • 2.5.1. Catalyst Loading / S. Thangaraf Nishanthi
  • 2.5.2. pH of the Solution / S. Thangaraf Nishanthi
  • 2.5.3. Size and Structure of the Photocatalyst / S. Thangaraf Nishanthi
  • 2.5.4. Reaction Temperature / S. Thangaraf Nishanthi
  • 2.5.5. Concentration and Nature of Pollutants / S. Thangaraf Nishanthi
  • 2.5.6. Inorganic Ions / S. Thangaraf Nishanthi
  • 2.6. Metal Oxide Semiconductors / S. Thangaraf Nishanthi
  • 2.7. Ternary/Quaternary Oxides / S. Thangaraf Nishanthi
  • 2.8. Composites Semiconductors / S. Thangaraf Nishanthi
  • 2.9. Sensitization / S. Thangaraf Nishanthi
  • 2.10. Conclusions / S. Thangaraf Nishanthi
  • References / S. Thangaraf Nishanthi
  • 3.1. Introduction / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.1.1. Langmuir-Hinshelwood Approach / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.1.2. Eley-Rideal Approach / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.1.3. Indirect Photocatalytic Approach / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.2. Types of Photocatalytic Reactor Models / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.3. Modification of Semiconductor Nanoparticles / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.3.1. Metal Nanoparticles / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.3.2. Non-Metal Deposition / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.4. Emerging Photocatalysts / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.4.1. Perovskite Photocatalysts / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.4.2. C3N4-Supported Photocatalysts / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.5. Mechanisms of Photocatalysis / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 3.6. Conclusion / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • References / Panneerselvam Sathlshkumar / Nalenthiran Pugazhenthlran / Ramalinga V. Mangalaraja / Kiros Guesh / David Contreras / Sambandam Anandan
  • 4.1. Nanocomposites and Applications / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • 4.2. Dyes: Introduction, Classification, and Impacts on the Environment / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • 4.3. Strategies of Dye Contaminant Removal / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • 4.4. Photodegradation and the Removal of Dyes Using Nanocomposites / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • 4.4.1. Zeolite-Based Nanocomposites / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • 4.4.2. Clay-Supported Nanocomposites / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • 4.4.3. Polymer-Based Nanocomposites / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • 4.5. Photocatalytic Reactors for Dye Degradation / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • 4.6. Summary / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • References / Sivaraman Somasundaram / Pitchaimanl Veerakumar / King-Chuen Lin / Vignesh Kumaravel
  • 5.1. Introduction / Sachin V. Otari / Hemraj M. Yadav
  • 5.2. Properties of Ag3PO4 / Sachin V. Otari / Hemraj M. Yadav
  • 5.2.1. Structural Features / Sachin V. Otari / Hemraj M. Yadav
  • 5.2.2. Antimicrobial Properties / Sachin V. Otari / Hemraj M. Yadav
  • 5.3. Photoremediation of Organic Pollutants / Sachin V. Otari / Hemraj M. Yadav
  • 5.3.1. Effect of Morphology / Sachin V. Otari / Hemraj M. Yadav
  • 5.3.1.1. Size and Structure of the Photocatalyst / Sachin V. Otari / Hemraj M. Yadav
  • 5.3.1.2. Facet-Dependent Photocatalysts / Hemraj M. Yadav / Sachin V. Otari
  • 5.3.2. Effect of Composition / Sachin V. Otari / Hemraj M. Yadav
  • 5.3.2.1. Carbon Materials / Sachin V. Otari / Hemraj M. Yadav
  • 5.3.2.2. Semiconductor Materials / Sachin V. Otari / Hemraj M. Yadav
  • 5.3.2.3. Magnetic Particles / Hemraj M. Yadav / Sachin V. Otari
  • 5.3.2.4. Metal Particles / Hemraj M. Yadav / Sachin V. Otari
  • 5.3.3. Doping Effect / Sachin V. Otari / Hemraj M. Yadav
  • 5.4. Conclusions and Future Prospects / Hemraj M. Yadav / Sachin V. Otari
  • Acknowledgements / Sachin V. Otari / Hemraj M. Yadav
  • References / Sachin V. Otari / Hemraj M. Yadav
  • 6.1. ZnO-Based Photocatalysis / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.2. Why Deposit Silver on ZnO Surface? / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.3. Methods to Decorate Silver NPs on the Surface of ZnO / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.4. Mechanism of Charge Carrier Transfer Dynamics in Ag-ZnO / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.4.1. Schottky Barrier and Charge Transfer Process / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.4.2. Surface Plasmon Resonance Effects / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.4.3. Defect Chemistry of Ag-ZnO / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.5. Influence of Silver Content on Optimizing the Photocatalytic Activity / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.6. Structure-Morphology Relationship on Photocatalytic Activity / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.7. Co-modification of Ag-ZnO for Photocatalysis / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 6.8. Conclusion and Future Prospects / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • References / Raghavachari Kavitha / Shlvashankar Girish Kumar / Channe Gowda Sushma
  • 7.1. Introduction / Lagnamayee Mohapatra / Dhananjaya Patra
  • 7.2. Hybrid LDHs from LDH Precursors / Lagnamayee Mohapatra / Dhananjaya Patra
  • 7.3. Photocatalytic Applications of Different LDH-Based Hybrid Materials / Lagnamayee Mohapatra / Dhananjaya Patra
  • Contents note continued: 7.3.1. LDH-Based Mixed Metal Oxides (MMO) / Lagnamayee Mohapatra / Dhananjaya Patra
  • 7.3.2. Hybrid MMOs for Dye Degradation / Lagnamayee Mohapatra / Dhananjaya Patra
  • 7.3.3. LDH Nanocomposites / Lagnamayee Mohapatra / Dhananjaya Patra
  • 7.3.4. Intercalated LDH / Lagnamayee Mohapatra / Dhananjaya Patra
  • 7.4. Conclusions / Lagnamayee Mohapatra / Dhananjaya Patra
  • References / Dhananjaya Patra / Lagnamayee Mohapatra
  • 8.1. Introduction / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.2. Synthesis Techniques for Magnetic Nanophotocatalyst Composites / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.3. Three Types of Semiconductor Magnetic-Based Nanocomposites / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.4. Graphene-Based Magnetically Separable Composites / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.4.1. Metal Di-Chalcogenides-Magnetic Nanocomposite Photocatalysts / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.4.2. Graphitic Carbon Nitride-Based Magnetic Photocatalysts / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.5. Effect of Iron Oxide-Based Photocatalysts on Pollutants / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.5.1. Organic Dye Pollutant Degradation / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.5.2. Non-Dye or Colorless Compounds / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.5.3. Heavy Metals / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.5.4. Pharmaceutical Waste / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 8.6. Summary / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • References / Sakthivel Thangavel / Nivea Raghavan / Gunasekaran Venugopal
  • 9.1. Introduction / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.2. Photoelectric Effect / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.3. Photo Functional Materials (Photocatalysts) / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.4. Photodegradation of Textile Dyes / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.5. Semiconductor-Based Photocatalysts / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.6. Carbon Nanotubes (CNTs) / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.7. Photo Functional Semiconductors on CNT Hybrid Materials for Tunable Optoelectronic Devices / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.8. Fabrication of CdS Quantum Dot Sensitized Solar Cells Using Nitrogen-Functionalized CNTs/TiO2 Nanocomposites / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.9. Graphene Sheet / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.10. CdS/G Nanocomposites for Efficient Visible Light Driven Photocatalysis / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.11. Graphitic Carbon Nitride (g-C3N4) / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 9.12. Conclusions / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • References / Pazhanivel Devendran / Meenakshisundaram Swaminathan
  • 10.1. Introduction / Jayaraman Theerthagiri / Kumaraguru Duraimurugan / Hyun-Seok Kim / Jagannathan Madhavan
  • 10.2. General Mechanism: Reaction Pathway / Jayaraman Theerthagiri / Kumaraguru Duraimurugan / Hyun-Seok Kim / Jagannathan Madhavan
  • 10.3. g-C3N4 and Composites in Photocatalytic Degradation / Jayaraman Theerthagiri / Kumaraguru Duraimurugan / Hyun-Seok Kim / Jagannathan Madhavan
  • 10.4. Conclusions and Future Directions / Jayaraman Theerthagiri / Kumaraguru Duraimurugan / Hyun-Seok Kim / Jagannathan Madhavan
  • Acknowledgements / Jayaraman Theerthagiri / Kumaraguru Duraimurugan / Hyun-Seok Kim / Jagannathan Madhavan
  • References / Jayaraman Theerthagiri / Kumaraguru Duraimurugan / Hyun-Seok Kim / Jagannathan Madhavan
  • 11.1. Introduction / Trong-On Do / Mohan Sakar
  • 11.2. Structural Features of MOFs / Mohan Sakar / Trong-On Do
  • 11.3. Synthesis of MOFs / Trong-On Do / Mohan Sakar
  • 11.3.1. Evaporation Method / Trong-On Do / Mohan Sakar
  • 11.3.2. Vapor Diffusion Method / Mohan Sakar / Trong-On Do
  • 11.3.3. Gel Crystallization Process / Trong-On Do / Mohan Sakar
  • 11.3.4. Solvothermal Synthesis / Mohan Sakar / Trong-On Do
  • 11.3.5. Microwave-Assisted Synthesis / Trong-On Do / Mohan Sakar
  • 11.3.6. Sonochemical Methods / Mohan Sakar / Trong-On Do
  • 11.3.7. Electrochemical Synthesis / Mohan Sakar / Trong-On Do
  • 11.3.8. Mechanochemical Synthesis / Trong-On Do / Mohan Sakar
  • 11.4. Photocatalytic MOFs by Design / Mohan Sakar / Trong-On Do
  • 11.5. Photocatalytic Applications of MOFs / Trong-On Do / Mohan Sakar
  • 11.5.1. Degradation of Organic Pollutants / Trong-On Do / Mohan Sakar
  • 11.5.2. CO2 Reduction / Mohan Sakar / Trong-On Do
  • 11.5.3. Heavy Metal Reduction / Trong-On Do / Mohan Sakar
  • 11.5.4. Others / Mohan Sakar / Trong-On Do
  • 11.6. Conclusions and Future Prospects / Mohan Sakar / Trong-On Do
  • Acknowledgements / Mohan Sakar / Trong-On Do
  • References / Mohan Sakar / Trong-On Do
  • 12.1. Introduction / Balasubramanian Viswanathan
  • 12.2. CO2 Photoreduction - Essentials / Balasubramanian Viswanathan
  • 12.3. Heterogeneous Photocatalytic Reduction of Carbon Dioxide with Water / Balasubramanian Viswanathan
  • 12.4. Nanomaterials and New Combinations of Materials for Carbon Dioxide Reduction / Balasubramanian Viswanathan
  • 12.5. Selection of Materials / Balasubramanian Viswanathan
  • 12.6. Material Modifications for Improving Efficiency / Balasubramanian Viswanathan
  • 12.7. Perspectives in the Photocatalytic Reduction of Carbon Dioxide / Balasubramanian Viswanathan
  • Acknowledgements / Balasubramanian Viswanathan
  • References / Balasubramanian Viswanathan.

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