160,49 €
inkl. MwSt.
Versandkostenfrei*
Versandfertig in 6-10 Tagen
  • Gebundenes Buch

This book looks at the recent developments in the area of photocatalytic degradation of dyes using photocatalytic techniques, for example by means of various nanoparticles, heterogeneous, and hybrid systems. Dyes are one of the major groups of water pollutants and are widely used in a diverse range of industries. The toxic effects of organic dyes in wastewater can have a great environmental impact, therefore there is significant interest and need to remove these dyes effectively and efficiently during wastewater treatment.
This volume covers a plethora of basics on the photochemistry of
…mehr

Produktbeschreibung
This book looks at the recent developments in the area of photocatalytic degradation of dyes using photocatalytic techniques, for example by means of various nanoparticles, heterogeneous, and hybrid systems. Dyes are one of the major groups of water pollutants and are widely used in a diverse range of industries. The toxic effects of organic dyes in wastewater can have a great environmental impact, therefore there is significant interest and need to remove these dyes effectively and efficiently during wastewater treatment.

This volume covers a plethora of basics on the photochemistry of dyes and provides information on technological perspectives including reactor designs and process intensification. Since many industries release a significant amount of colored effluents, which are toxic and difficult to remove by conventional methods, the comprehensive studies herein will contribute to helping reduce the impact of colored effluents in wastewater on the environment.
Autorenporträt
Dr Sushma Dave:  Dr. Sushma Dave received Master of Science and   PhD in Analytical, Electrochemistry and Environmental Chemistry from Biosensor Lab in Chemistry Department of   Jai Narayan Vyas University, Jodhpur .She has also completed her bachelors of Law. She is involved continuously in the field of higher education teaching Pure, Applied Chemistry, Cheminformatics, Nanotechnology, Electrochemistry, Biology, Solid waste management, Waste water treatment and Environmental chemistry to students of Engineering and basic sciences . She also served as Research Associate in Soil Bio Chemistry and Microbiology Division CAZRI, Jodhpur. Currently she is working as an Associate Professor and Head (administration) in Jodhpur Institute of Engineering & Technology, Mogra, and Jodhpur Rajasthan India. She has published and presented several papers in international and nationalJournals, conferences and participated in various workshops and training programs. Herareas of interest are Electrochemistry, Biosensors Environmental science, Nanotechnology,biochemistry. Cheminformatics, Immunoinformatics and Drug repurposing. She has edited books and published a number of chapters with Elsevier and Springer. Currently working on funded project in novel materials for environmental remediation, Biosensor development and drug repurposing of new drugs for infectious diseases.  Dr Jayashankar Das:  Dr. Das is a scientist turned into a serial entrepreneur who emphasize value innovation as an indicator for developing Blue Ocean strategy. A true promoter of innovation based technologies, grass root accelerator, Tech-evangelist, strategist with a strong academic and research background with global network and ability to forge strong relationship within the research community to cover a wide landscape of innovation in the frontier areas of HealthTech, Biotech, AI, CleanTech, EnergyTech, etc. As a techno administrator and researcher involvedin developing and Implementing Biotechnology Policy, innovation policy, disaster management policy, corporate strategy, development of new schemes for the organization and Government towards the development of sustainable ecosystem, Promoting cutting-edge research and entrepreneurship in the areas of innovation based technologies. Also as a researcher Involved in cutting edge research in Vaccine development, miRNA based therapeutics, molecular diagnostics, extremozymes via Genomics & Bioinformatics technologies, developing nanomaterials, etc.