This series provides information on the nature of dyes, their harmful effects, and dye degrading techniques. The second volume focuses on sophisticated oxidation methods for dye degradation. The information on target-oriented dye mitigation is intended to give readers a better understanding of the dye degradation process to sustain a healthy environment. Chapters present referenced information and highlight novel industry breakthroughs.
Key topics:
- The Fenton process for dye removal
- MOF-based and graphene oxide photocatalysts for dye degradation
- Novel photocatalysts active in visible light and IR spectra
- Photocatalytic degradation of transition metal dichalcogenides
- Environment friendly synthesis of photocatalysts for dye degradation
- Metal oxide Nanomaterials for dye degradation
Readership
Scholars in chemistry and chemical engineering; professionals in manufacturing industries and environmental sustainability.Table of Contents
- CONTENTS
- FOREWORD
- PREFACE
- LIST OF CONTRIBUTORS
CHAPTER 1 FENTON AND FENTON-LIKE PROCESSES FOR THE DEGRADATION OF
- DYE IN AQUEOUS SOLUTION
- R. Liju and Eswaran Rajkumar
- INTRODUCTION
- CONVENTIONAL FENTON PROCESS
- PHOTO-FENTON PROCESS
- ELECTRO-FENTON PROCESS
- SONO-FENTON PROCESS
- PHOTO-ELECTRO-FENTON PROCESS
- SONO-PHOTO-FENTON PROCESS
- SONO-ELECTRO-FENTON PROCESS
- BIO-FENTON REACTION
- CONCLUSION
- REFERENCES
CHAPTER 2 PHOTOCATALYTIC DYE DEGRADATION USING METAL-ORGANIC
- FRAMEWORKS
- Nainamalai Devarajan and Paulpandian Muthu Mareeswaran
- INTRODUCTION
- DEGRADATION OF DYES USING BARE MOFS (AS-SYNTHESIZED MOFS)
- Lewis Acid MOF
- Copper MOF
- Cu3(BTC)2 or MOF-199
- {[Cu(ttpa)(pim)].H2O}n MOF
- Mechanism (Band theory)
- Iron MOF
- Cadmium MOF
- TMU-16 (Zinc MOF, [Zn2(BDC)2(4-bpdh)].3DMF)
- Brønsted Base MOF
- Silica Supported MOF
- Silica-supported Binary MOF (MIL 53 (Al-Fe)@SiO2)
- Magnetic MOFs
- Fe3O4@SiO2@PCN-222(Fe)
- Photocatalytic Measurement
- Ionic MOFs (iMOFs)
- Anionic MOFs
- Cationic MOFs
- Bimetallic MOFs
- Synthesis of Mixed Metal MOFs: [STA-12(Fe, Mn)]
- Analyses of Degradation Products
- METAL-ORGANIC FRAMEWORK NANOCOMPOSITE: (MOF NANOCOMPOSITE)
- NH2-MIL-101(Fe) Nanocomposite
- Synthesis of NH2-MIL-101(Fe)/ Phosphotungstic Acid (PA) Composite
- Synthesis of g-C3N4/Fe-TDA Composites
- Synthesis of Fe-TDA MOF
- CONCLUSION
- ACKNOWLEDGEMENT
- REFERENCES
CHAPTER 3 UV, VISIBLE, AND NEAR-INFRARED RESPONSIVE PHOTOCATALYST
- FOR DYE DEGRADATION
- Natarajan Prakash, Subramanian Balachandran, Muhammad Y. BashoutiMukkanan,
- Arivananthan and Yasuhiro Hayakawa
- INTRODUCTION
- Principle of Semiconductor Photocatalysis
- Visible Light Photocatalyst
- Metal and Non-metal Doping
- Crystal Structure and Morphology Modifications
- Sensitization of Semiconductor
- Heterojunction Photocatalysts
- Z-scheme Photocatalysts
- Plasmonic Nanoparticles-based Photocatalysts
- NIR Active Photocatalyst
- Up-conversion Phosphor/ TiO2 Composites
- CONCLUSION
- ACKNOWLEDGEMENT
- REFERENCE
CHAPTER 4 TRANSITION METAL DICHALCOGENIDE HYBRIDS FOR VISIBLE-LIGHT-
- DRIVEN PHOTOCATALYTIC DYE DEGRADATION
- M. Karpuraranjith, Y.F. Chen, S. Rajaboopathi, R. Manigandan, K. Srinivas and
- SPR. Poonkodi
- INTRODUCTION
- TRANSITION METAL DICHALCOGENIDE HYBRIDS
- TiO2-based Transition Metal Dichalcogenide Hybrids
- g-C3N4-based Transition Metal Dichalcogenide Hybrids
- g-C3N4@TiO2-based Transition Metal Dichalcogenide Hybrids
- Applications of Transition Metal Dichalcogenide Hybrids
- Mechanism of Dye Degradation
- CONCLUSION AND FUTURE SCOPE
- REFERENCES
CHAPTER 5 PHOTOCATALYTIC DEGRADATION OF DYES USING GREEN
- SYNTHESIZED METAL NANOPARTICLES
- Sheeba Daniel
- INTRODUCTION
- PHOTOCATALYTIC DEGRADATION
- GREEN SYNTHESIS OF METAL NANOPARTICLES
- DEGRADATION OF DYES USING GREEN SYNTHESISED METAL
- NANOPARTICLES
- CONCLUSION
- ACKNOWLEDGEMENT
- REFERENCES
CHAPTER 6 RECENT DEVELOPMENTS AND PERSPECTIVES IN PHOTOCATALYTIC
- DEGRADATION OF DYES EMPLOYING METAL OXIDE NANOPARTICLES
- Selvakumaran Nagamani
- INTRODUCTION
- PHOTOCATALYSIS
- Semiconductors with n-type
- TiO2 NPs
- ZnO NPs
- SnO2 NPs
- CeO2
- P-type Semiconductor
- CuO NPs
- Fe2O3 NPs
- NiO NPs
- Dye Degradation by Other Metal Oxides
- Bimetallic Transition Metal Oxides as Photocatalyst
- Variables Influencing the Degradation of Dyes by Photocatalysis
- Impact of pH
- Catalyst Load
- Effect of Electron Acceptors
- Dissolved Oxygen in Solution
- Reaction Temperature
- Light Intensity
- CONCLUSIONS AND PERSPECTIVES
- REFERENCES
CHAPTER 7 GRAPHENE OXIDE NANOCOMPOSITES: PHOTOCATALYTIC DYE
- DEGRADATION INVESTIGATIONS
- Paulraj Adwin Jose, Murugesan Sankarganesh, Jeyaraj Dhaveethu Raja and
- Jegathalaprathapan Rajesh
- INTRODUCTION
- Background of Dye-contaminated Industrial Effluents
- Treatment Methods for Dye-contaminated Industrial Effluents
- Graphene Oxide Composite Dye Removal
- Advantages of Graphene Oxide Composites in Dye-contaminated Industrial Effluents
- Treatment
- Limitations of Graphene Oxide Composites in Dye-contaminated Industrial Effluents
- Treatment
- Graphene Oxide-based Composite Membrane for Dye-contaminated Industrial Effluent
- Treatment
- Synthesis of Graphene Oxide Composites
- Glucose-Graphene Oxide Composite
- Cyclodextrin-Graphene Oxide Composite
- Chitosan-Graphene Oxide Composite
- Metal Hydroxide-Graphene Oxide Composite
- Metal-Graphene Oxide Composite
- Titanium Oxide Graphene Oxide Composite
- Photocatalysis Technology in the Purification of Dye-contaminated Industrial Effluents
- Nanofibers Membranes
- Nanocomposite Membranes
- Thin-film Nanocomposite (TFN) Membranes
- Photo Dye Degradation by Metal Nanoparticles Blended Graphene Oxide-Zinc Oxide
- Nanocomposites
- Photo Dye Degradation of Polluted Water by Titanium Oxide/graphene Oxide
- Nanocomposites
- Photo Dye Degradation by Zinc Oxide Ammonia Modified Graphene Oxide
- Nanocomposites
- Photo Dye Degradation by Copper Oxide Modified Graphene Oxide Nanocomposites
- Photo Dye Degradation by Graphene Oxide-iron Oxide Nanocomposites
- Photo Dye Degradation by Graphene Oxide Tungsten Oxide Nanocomposites
- Photo Dye Degradation by Graphene Oxide Nickel Oxide Nanocomposites
- CONCLUSION
- REFERENCES
- SUBJECT INDEX
