"Metal Oxide-Activated Carbon Nanocomposites for Environmental Applications" is a comprehensive book written by R VIGNESH, covering the synthesis, structural characterization, and environmental applications of metal oxide-activated carbon nanocomposites. The book explores the potential of these nanocomposites in addressing environmental challenges such as water purification, air purification, renewable energy, pollution control, hazardous waste management, toxic gas removal, heavy metal removal, and contaminant degradation.
The book covers various metal oxide materials, including MNO2, ZrO2, SnO2, and NiO, and their synthesis using different techniques such as carbonization, pyrolysis, gasification, ion exchange, hydrothermal treatment, sol-gel method, precipitation method, ultrasonic treatment, and microwave-assisted synthesis. The author also discusses the impact of synthesis parameters, material properties, and chemical compatibility on the performance of these nanocomposites.
The book highlights the potential of metal oxide-activated carbon nanocomposites in environmental applications such as humidity sensing, antimicrobial activity, photocatalytic degradation of Methylene Blue dye under visible light irradiation, and adsorption of contaminants. The author examines the surface area, pore volume, surface chemistry, and thermal stability of these nanocomposites and their role as catalysts in environmental remediation.
Overall, "Metal Oxide-Activated Carbon Nanocomposites for Environmental Applications" offers valuable insights into the design, synthesis, and environmental applications of metal oxide-activated carbon nanocomposites. It emphasizes the importance of environmental sustainability in the development of these materials and provides a comprehensive reference for researchers, academics, and professionals working in the field of environmental science and engineering.