This book brings together various topics of nanomaterials in various industrial applications to promote sustainable development practices. The first part of the book describes green nanotechnology for clean energy and environmental sustainability, which includes heavy metal detoxification from water, wastewater remediation, dye degradation, and bioremediation. The second part of the book covers sustainable biomedical applications of nanomaterials such as antibacterial activity and drug delivery systems, which includes the toxicological as well as the antibacterial impacts that nanoparticles have on microorganisms. The subsequent chapters discuss the roles of nanomaterials for sustainability in agriculture, crop protection, plant disease management, food technology (increasing the efficiency of the food industry), and the textile industry. The book caters to researchers and scientists who are interested in the utilization of nanomaterials to enhance sustainable industrial practices.
Cuprins
Green Nanotechnology for Clean Energy and Environmental Sustainability.- Sustainable Development of Heavy Metal Detoxification from Water.- Bioinspired fabrication of hand retrieval heterogeneous supported catalysts for wastewater remediation.- Sustainable synthesis of carbon-based nanocomposite for dye degradation.- Biomaterials for Sustainable Bioremediation.- Nanomaterials on living organisms: from antimicrobial to toxic effects.- Green nanoparticles as a drug delivery system.- Sustainable synthesis of nanomaterials and their application for antimicrobial activities.- Role of Nanomaterials in Sustainable Agriculture.- Novel Insights on Sustainable Nanoparticles in Crop Protection: Current Status and Prospects.- Nanomaterials in food science – a sustainable future.- Facile synthesis of carbon nanotubes and its application in food science and wastewater treatment.- Nanosensors: Food quality, safety, and authenticity monitoring using nanotechnology.- The robustness of nanomaterialsof cellulose origin: Application in plant disease control.- Exploration of advances in sustainable nanomaterials in textile industries.- Sustainable nanomaterials in machine learning: occurrence and applications.
Despre autor
Imran Uddin has a Ph.D. in biotechnology from the National Chemical Laboratory, Pune, India. His research interest lies in the fabrication of biocompatible nanostructures for nanobiosensors and flexible electronics. Moreover, he is also working on developing new industrially relevant renewable nanomaterials. He completed his postdoctoral fellowships at Rhodes University, South Africa, and Korea University, Seoul, Republic of Korea. He has served as an assistant professor of biotechnology at INC, AMU, Aligarh. He is the recipient of a number of awards and fellowships, including CSIR Pool Scientists, Start-up Research Grant (DST Young Scientists), CSIR SRF, and ICAR NET. Currently, he is a senior research scientist at the Nanolab, Environmental Mineralogy Research Group, Research Institute of Biomolecular and Chemical Engineering, University of Pannonia, Veszprém, Hungary.