An introduction to the textile waste remediation

Textile waste: The genesis, environmental impact and remediation using nanoengineered materials

Degradation of reactive dyes using photoactive membranes

Adsorption of azo dye(s) from the waste water

Textile waste conversion into valuable products for environmental abatement

Environmental Hazards on Textile waste

Carbon based nanomaterials for the adsorptive remediation of textile waste

Recent Application of Nanotechnology in the Remediation of Textile Effluents and their environmental impact

Synthesis techniques for functional photocatalysts

Conclusions and perspectives

Prof. Ajay Kumar Mishra is Professor at the Department of Chemistry, Durban University of Technology and Director at Nanotechnology and Waste Water Innovations, South Africa. He also worked at University of South Africa. He also holds Adjunct Professorship at Jiangsu University and Hebei University of Science & Technology, China. Visiting Professor at Robert Gordon University, UK and Bashkir State University, Russia. His research interests include the synthesis of multifunctional nanomaterials, bio-based materials including polymers, carbon nanomaterials, composite materials, and wastewater research. He has authored around 160 publications and edited 35 books. Graduated 13 PhD and 23 master besides presenting in more than 115 conference/Institutes as Plenary/Keynote /Invited Lectures. He is actively playing an active role as editor and editorial board member of peer reviewed international journals. He also serves as member of national and international scientific organisations and funding bodies in his expertise subject areas.

This book presents a complete state of the art for different types of nanomaterial, their environmental fate, and their use in textile waste remediation. Nano-engineered materials including nanoparticles, nanofibers, nanotubes have been used extensively for a variety of applications. Environmental concerns have been noted mainly due to the discharge of textile waste. Nanotechnology is fast growing on research and bringing sustainable solution in minimizing the waste. This also minimizes the risk of exposure and health hazards. With the development of industry, environmental pollution and energy shortage have raised awareness of a potential global crisis. So, it is urgent to develop a simple and effective method to address these current issues. Nano-engineered materials can be better solution in finding solution of environmental sustainability more specific to the textile waste remediation. 

Nano-engineered materials have emerged as pioneering photocatalysts and account for most of the current research in this area. This can provide large surface areas, diverse morphologies, abundant surface states, and easy device modeling, all of which are properties beneficial to photodegradation. Furthermore, the stability and cost of nano-engineered materials are critical factors. Therefore, it is a challenge of great importance to identify and design nano-engineered materials that are efficient, stable, and abundant for the remediation of textile waste.​