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Nanotechnology is a diverse science that has brought about new applications in fields such as colloidal science, device physics and supra molecular chemistry. Environmental pollution treatment by nanomaterials is an emerging application of nanotechnology. It is gaining importance because of the increased environmental challenges due to the impact of modern industrial activities. Industrial activity involves the production and use of various toxic organic and inorganic chemicals which pollute nearby water streams, indirectly influencing aquatic and human life. Thus, there is a need to protect the environment through the development of new technologies and by enacting awareness drives for environmental sustainability. This volume summarizes cutting-edge research on nanomaterial utilization for environmental challenges. Chapters introduce readers to the concepts of environmental protection, sustainability and monitoring. Readers will also learn about technologies used for keeping the environment safer, including ion exchangers, metallic oxide complexes, nanocomposite materials, porous membranes and nanocatalysts. This volume is intended to be an introductory reference for students and researchers undertaking advanced courses in materials science, environmental science and engineering, giving readers a glimpse into the fascinating world of nanotechnology.
Carbon Nanomaterials for Agri-food and Environmental Applications discusses the characterization, processing and applications of carbon-based nanostructured materials in the agricultural and environmental sectors. Sections discuss the synthesis and characterization of carbon nanotubes, the technological developments in environmental applications of carbon-based nanomaterials, and agri-food applications. The book also covers the toxic effects of engineered carbon nanoparticles on the environment, and in plants and animals. Finally, quality control and risk management are addressed to assess health and environmental risks. This is an applicable book for graduate students, researchers and those in industrial sectors of science and technology who want to learn more about carbon nanomaterials.
Nanotechnology is a diverse science that has brought about new applications in fields such as colloidal science, device physics and supra molecular chemistry. This volume gives an overview of the development of nanomaterial applications in energy and power generation, medicine and healthcare, water purification, biotechnology, electronics, sporting goods, environmental issues, military defense, and textile/fabric industries. The text also explains the fundamentals of polymer nanocomposites and their industrial applications. Other chapters cover semiconductor applications of nanomaterials, nanomaterial synthesis, characterization of nanocomposites and uses of nanofillers. Readers will also find notes on the DFT study of II-VI semiconducting nano-clusters. This volume is intended to be an introductory reference for students and researchers undertaking advanced courses in materials science and engineering, giving readers a glimpse into the fascinating world of nanotechnology.
An overview of the current state of nanotechnology-based devices with applications in environmental science, focusing on nanomaterials and polymer nanocomposites. The handbook pays special attention to those nanotechnology-based approaches that promise easier, faster and cheaper processes in environmental monitoring and remediation. Furthermore, it presents up-to-date information on the economics, toxicity and regulations related to nanotechnology in detail. The book closes with a look at the role of nanotechnology for a green and sustainable future. With its coverage of existing and soon-to-be-realized devices this is an indispensable reference for both academic and corporate R&D.
Due to their characteristic properties, biodegradable nature and non-toxicity, clay-biopolymer based composites have many applications in such advanced fields as drug release, antimicrobial activities, wound healing, tissue engineering, wastewater treatment, food packaging and flame retardant materials. The book reviews fabrication, properties and applications of a great variety of these materials. Keywords: Clay-Polymer Composites, Nano Clay, Polysaccharide, Fibrous Clays, Halloysite-Chitosan, Montmorillonite-Chitosan, Kaolinite-Chitosan, Vermiculite Starch, Halloysite-Starch, Montmorillonite-Starch, Kaolinite-Starch, Cellulose. HNT-Cellulose, Kaolinite-Cellulose, Drug Release, Wound Healing, Tissue Engineering, Wastewater Treatment, Food Packaging, Flame Retardant Materials.
Electrochemistry and Photo-Electrochemistry of Nanomaterials: Fundamentals and Applications explores how nanotechnology and nanomaterials can be utilized in the field of electrochemistry and photo-electrochemistry. The book covers the fundamentals of nanoscale electrochemistry and photo-electrochemistry for nanoscale materials systems, including multilayer nanofilms, nanowires, nanotubes, nanoparticles embedded in metal matrixes, and membranes containing nanoparticles. The creation of new materials for energy and sensing technologies that rely on understanding and control of chemical processes is also emphasized. Advances in characterization, synthesis, and fabrication of nanoscale materials and technologies are also discussed regarding the design of new materials. This book is suitable for academics and industry professionals working in the subject areas of materials science, materials chemistry, inorganic chemistry, and energy. - Reviews fundamental concepts of electrochemistry and photo-electrochemistry for nanoscale materials systems - Includes the electrochemical techniques to synthesize, characterize, and control and improve the properties of nanoscale material systems - Discusses the latest research directions to design new materials for energy and sensing applications
This book highlights cutting-edge research presented at the third installment of the International Conference on Smart City Applications (SCA2018), held in Tétouan, Morocco on October 10–11, 2018. It presents original research results, new ideas, and practical lessons learned that touch on all aspects of smart city applications. The respective papers share new and highly original results by leading experts on IoT, Big Data, and Cloud technologies, and address a broad range of key challenges in smart cities, including Smart Education and Intelligent Learning Systems, Smart Healthcare, Smart Building and Home Automation, Smart Environment and Smart Agriculture, Smart Economy and Digital Business, and Information Technologies and Computer Science, among others. In addition, various novel proposals regarding smart cities are discussed. Gathering peer-reviewed chapters written by prominent researchers from around the globe, the book offers an invaluable instructional and research tool for courses on computer and urban sciences; students and practitioners in computer science, information science, technology studies and urban management studies will find it particularly useful. Further, the book is an excellent reference guide for professionals and researchers working in mobility, education, governance, energy, the environment and computer sciences.
Several plant bioactives or plant-derived therapeutic molecules have been used against life-threatening diseases and their nanoparticle-mediated delivery greatly improves therapeutic efficacy. Advances in Phytonanotechnology for Treatment of Various Diseases aims to describe past and recent advances achieved in the field of phytonanotechnology. The chapters of this book provide thorough knowledge of medicinal plants, plant bioactives, plant extract-based nanoparticle synthesis, delivery of plant bioactives through nanoparticles, and their therapeutic activity against life-threatening diseases. This book focuses on the therapeutic activity of phytocomponents present in plants from diverse families, genera, and species. The book also covers future aspects and challenges present in phytonanotechnology for curing human diseases. This book fulfils the thrust of researchers working in this field, which further encourages them to make new discoveries in this area and support the development of effective nanoparticle-mediated plant bioactive delivery platforms for treating human diseases. Key Features Provides information on medicinal plants and plant bioactives used in the treatment of various life-threatening diseases Covers green synthesis of nanoparticles as well as their toxicological and biological effects Explores various nanocarriers routinely used in the delivery of plant bioactives and their efficacy for future drug delivery Envisages future opportunities, challenges, and implementation made in phytonanotechnology-based treatment of human diseases
Metal Sulfide Nanomaterials for Environmental Applications presents the fundamentals necessary to understand the latest developments and possibilities of applied use, specifically for chemical detection/sensing and monitoring in air, soil, and water matrices as well as for chemical reaction engineering purposes (conversion, photocatalysis, adsorption) to facilitate removal of pollutants. Organic contaminants, volatile organic compounds, and heavy metals pose long-term threats to natural ecosystems and human health. Particularly in the last decade, metal sulfide nanomaterials have piqued researchers' interest due to their outstanding physicochemical characteristics that make them amenable to modulation, as well as their qualitative and quantitative structure–activity relationship. - Offers up-to-date, state-of-the-art information on metal sulfide nanomaterials - Takes advantage of a structured and comprehensive approach to seamlessly combine theory and practical applications - Focuses on usability for environmental remediation, making its contents extremely valuable - Conceptualizes future implications at the end of each chapter
Sodium Alginate-based Nanomaterials for Wastewater Treatment offers detailed coverage of fundamentals and recent advances in sodium alginate-based nanomaterials for wastewater treatment. The book provides a detailed overview of the development and application of nanomaterials-based sodium alginate so that new methods can be put in place for efficient wastewater treatment. This includes illustrating how nanomaterials have enabled the formation of nanocomposites or blends of sodium alginate with other compounds like chitosan for the effective removal of heavy metals from wastewater. This important reference source for materials scientists and environmental engineers comprehensively covers nanotechnology applications in efficient wastewater treatment solutions. - Shows how sodium alginate is being used for the removal of organic and inorganic pollutants from wastewater - Explains the formation and application of sodium alginate- based beads, electro-spun fibers, nanofibers, blends and zerovalent sodium alginate - Discusses the future potential of nanomaterial-based sodium alginate and its blends