Billions of people globally live under conditions of water stress and water shortage, or with contaminated water sources. Anthropogenic contaminants pose an extra challenge as water purification technology must be constantly developed or upgraded to deal with newly fabricated pollutants.
One of the UN sustainable development goals is to ensure availability and sustainable management of water and sanitation for all. Therefore, it is vital to develop novel materials and technologies for producing clean drinking water in a human safe, economically reasonable and environmentally sustainable way.
Novel Materials and Water Purification introduces recent approaches to the fabrication of novel materials for water purification and discusses several significant applications including removal of heavy metals and pharmaceuticals. This is a timely work of high interest to researchers and learners in the fields of water science, water management and materials science.
Spis treści
Biomaterials for Water Purification: Dyes, Heavy Metals, and Pharmaceuticals;Sustainable Synthesis of Green Novel Materials for Water Purification;MXene-based Separation Membranes for Water Purification and Desalination;Advanced Nanomaterials for Removal of Emerging Organic Pollutants From Water;Magnetic Adsorbents/Photocatalysts for Water Purification: Progress and Challenges;Nanocellulose-based Membranes for Water Purification: Multifunctional Nanocellulose Extraction, Characterization, Modification Strategies, and Current Release in Water Treatment and Environmental Remediation;Graphene-based Materials for Water Remediation: Recent Advances on Pollutant Sorption, Photodegradation and Filtration;Responsive Polymeric Materials: Advances in Membrane-based Technologies for Water Treatment Processes;Graphene-based Engineered Macrostructures for Water Purification;Textile Azo Dye Removal Using a Quaternary Ammonium Anion Exchanger Prepared from Sugarcane Bagasse;Iron Oxide Nanomaterials for Water Purification;Factors Influencing Ti O2-based Composites for Water Decolorization: A Systematic Review;Enviro-friendly Nanomaterial Synthesis and Its Utilization for Water Purification
O autorze
Dr. Miltiadis G. Zamparas (Ph D) a Researcher in the field of Chemical Engineering, at the Foundation for Research & Technology-Hellas (FORTH), Institute of Chemical Engineering Sciences (ICE-HT). Miltiadis holds bachelors, master’s degrees in Environmental Engineer from the University of Ioannina and University of Patras, Greece. He also holds a MSc in Institutions and Health policies from Department of Social and Political Sciences, University of Peloponnese, Greece. He received his Ph.D. in Environmental Engineering in 2015 from University of Patras, School of Engineering, Department of Environmental Engineering. His primary research activities focus on Water Management, Restoration of degraded water bodies, Environmental Chemistry, Materials Science, as well as novel functional materials for water treatment.
Dr. Dr. Grigorios L. Kyriakopoulos (2 Ph Ds) is Teaching and Research Associate at the School of Electrical and Computer Engineering, National Technical University of Athens (NTUA), Greece. He accumulated 30 years research and teaching experience at NTUA, Hellenic Naval Academy (2 years), Hellenic Merchant Marine Academy (2 years), and School of Pedagogical and Technological Education of Athens (4 years). At the period 1991-2022 he accomplished an educational profile of 22 university qualifications, including: Chemical Engineering (MEng, MSc, Ph D, Post Doc), Environment (BSc, 2 MSc, Ph D), Energy (MSc), Business Administration (Cert HE in HRM, BA, MA), Hellenic Civilization (BA and MA), Education (PGCE), Psychology (Cert HE, HND, PGCert). His research interests include engineering, environmental systems, energy, remediation of polluted areas through aqueous or gaseous media, renewable energy sources, business administration, education, development economics, circular economy, behavioral ecology.