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Photocatalytic Degradation of Dyes: Current Trends and Future Perspectives covers in detail current trends and future aspects on photocatalytic degradation of organic dyes using novel photocatalytic techniques such as metallic nanoparticles, heterogeneous and hybrid systems using visible light irradiation. It highlights the most recent scientific and technological achievements and importance of degradation of dyes in the textile effluent by simple environmental friendly approaches using eco-friendly catalysts. It is of assistance to everyone interested in bioremediation of effluents: professionals, consulting engineers, academicians, and research scholars as well.
Sommario
1. Heterogeneous photocatalysis of organic dyes 2. Novel photocatalytic techniques of Organic dye degradation in water 3. Application of doped semiconductors in the degradation of dyes 4. Hybrid systems and their importance in the dye degradation 5. Photocatalytic Degradation of Azo Dyes under Visible Light Irradiation 6. High Photocatalytic Activity under Visible Light for dye degradation 7. Rate-Limiting Steps of Dye Degradation 8. Effective Materials in the Photocatalytic Treatment of Dyestuffs and Stained Wastewater 9. Industrial application of photocatalytic methods such as textile pharmaceutical industries, tannery, and craft 10. Phtytogenicsynthesis of nanoparticles and their application in photo catalysis 11. Mycogenic synthesis of metallic nanostructures and their use in dye degradation 12. Mechanistic aspect of the dye degradation using photocatalysts 13. Green and sustainable methods of photocatalytic materials for efficient application in dye degradation
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Dr. Sushma Dave received a master of science and PhD in analytical, electrochemistry, and environmental chemistry from the Biosensor Lab in the Chemistry Department of Jai Narayan Vyas University, Jodhpur. She is involved continuously in the field of higher education teaching pure, applied chemistry, cheminformatics, nanotechnology, electrochemistry, biology, solid waste management, wastewater treatment, and environmental chemistry to students of engineering and basic sciences. She also served as a Research Associate in the Soil Biochemistry and Microbiology Division, CAZRI, Jodhpur. She has published and presented over 50 papers in international and national journals, conferences and participated in various workshops and training programs. Her areas of interest are electrochemistry, biosensors environmental science, nanotechnology, biochemistry, cheminformatics, immunoinformatics, and drug repurposing.
Dr. Das received his PhD in biotechnology and served as a Scientist at the IBSD, DBT, Government of India. He is the Founder and CEO of Valnizen which deals with regulatory documents and healthcare compliances and support services to African and southeast Asian countries. He has served as a Joint Director of the Gujarat State Biotechnology Mission, DST, and Joint Director to Gujarat Biotechnology Research Centre, DST, both from the Government of Gujarat. He has served as a Director of the Savli Technology and Business Incubator, DST, Government of Gujarat, India. He was actively involved in the development and implementation of various policies and action plans like biotechnology policy, innovation policy, interpole disaster management policy, start-up policy for many universities and governments. His research team is involved in addressing societal challenges via cutting-edge research, namely, the development of molecular diagnostics for infectious diseases, the development of universal vaccine candidate for emerging diseases, the development of miRNA-based targeted therapeutics, and artificial intelligence in healthcare applications.
Dr. Maulin P. Shah is an active researcher and microbial biotechnologist with diverse research interest. His primary interest is the environment, the quality of our living resources and the ways that bacteria can help to manage and degrade toxic wastes and restore environmental health. Consequently, His work has been focused to assess the impact of industrial pollution on microbial diversity of wastewater following cultivation dependant and cultivation independent analysis.
