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Biopolymers are becoming an increasingly important area of research as traditional chemical feedstocks run low and concerns about environmental impacts increase. One area of particular interest is their use for more sustainable development of metal nanoparticles. Biopolymer-based Metal Nanoparticle Chemistry for Sustainability Applications, Volume 1 reviews key polymers found in nature, their characterization and modification, and processes for using them in the development of metal nanoparticles. Beginning with an introduction to both green chemistry and biopolymers in Part 1, the book goes on to outline the classification of biopolymers in Part 2, with specific details on polysaccharides, proteins and polypeptides, lignin, and polylactic acid. Properties of biopolymers, including biodegradability and toxicity, are the focus of Part 3, before Part 4 goes on to discuss synthesis and characterization. - Reviews novel sources of polymers with high potential as green media for synthesizing nanostructures - Provides technological details on the synthesis of natural polymer-based metal nanoparticles - Highlights the use of natural polymer supports and the impact of their properties on stability, morphology and scale of nanostructures
Biopolymers are becoming an increasingly important area of research as traditional chemical feedstocks run low and concerns about environmental impacts increase. One area of particular interest is their use for more sustainable development of metal nanoparticles. Biopolymer-Based Metal Nanoparticle Chemistry for Sustainability Applications, Volume 2 reviews key uses of biopolymers and biopolymer-based metal nanoparticles for a range of key sustainability-focused applications. After providing contextual examples of applications across the fields of food science, biomedicine and biochemistry, the book goes on to explore further sustainability-focused applications of Biopolymer-Based Metal Nanoparticles in such important areas as catalysis, environmental science, biosensing, and energy. - Provides an overview of biopolymer-based metal nanoparticles for a wide range of applications - Provides technological details on the synthesis of natural polymer-based metal nanoparticles - Explores the role of biopolymer-based metal nanoparticles for more sustainable catalytic processes
Biopolymer-Based Food Packaging Explore the latest developments and advancements in biopolymer-based food packaging In Biopolymer-Based Food Packaging: Innovations and Technology Applications, a team of accomplished researchers delivers a complete, systematic, and sequential account of the contemporary developments in the application of biopolymers for sustainable food packaging. This book introduces the fabrication, characterization as well as benefits arising from the enhanced functionalities of biopolymer-based food packaging materials. The authors introduce various polysaccharide, protein, and microbial polymer-based food packaging films and coatings, as well as biopolymer-based blends and nanocomposites. Importance of these materials as active and intelligent food packaging systems is also introduced. Finally, the book explores biopolymer-based edible food packaging, and its efficacy in extending the shelf-life of perishable food items using sustainable materials and processes suitable for the future of circular economies around the world. Readers will also find: A thorough introduction to the incorporation of nanomaterials as fillers to improve the physico-chemical, mechanical, thermal, barrier, optical, and antimicrobial properties of food packaging nanocomposites Comprehensive discussions of the use of plant-based bioactive compounds, including essential oils, in biopolymer-based food packaging Practical examinations of silver and zinc oxide nanoparticles in food packaging In-depth treatments of polylactic acid-based composites for food packaging applications Biopolymer-Based Food Packaging: Innovations and Technology Applications is an invaluable resource for academic researchers and professionals in food packaging and related industries, as well as research scholars, graduate students, and entrepreneurs working and studying in the field of food preservation, environmental safety, and human health with a focus on the sustainable future.
The Impact of Nanoparticles on Agriculture and Soil, part of the Nanomaterials-Plant Interaction series, contributes the most recent insights into understanding the cellular interactions of nanoparticles in an agricultural setting, focusing on current applications and means of evaluating future prospects. In order to ensure and improve the biosafety of nanoparticles, it is a primary concern to understand cellular bioprocess like nanomaterial's cellular uptake and their influence on cellular structural, functional and genetic components. This book addresses these and other important aspects in detail along with showcasing their applications in the area of agriculture. With an international team of authors, and experienced editors, this book will be valuable to those working to understand and advance nanoscience to benefit agricultural production and human and environmental welfare. In-depth knowledge of these bioprocess will enable researchers to engineer nanomaterials for enhanced biosafety. - Guides the assessment of nanomaterials' impact on agricultural and soil cellular metabolism and physiological characteristics - Provides in-depth insights into potential risks and hazards of nanoparticles - Builds a foundation for further research and development
Polymer-supported organic catalysts are largely insoluble in most reaction solvents, which allows for easy recovery and recycling of the catalysts. They are generally stable, readily available, and environmental friendly, so they have attracted the interest of many synthetic chemists in the industrial and academic fields. In this book, different types of polymer-supported catalysts based on peptides, polystyrene, polyethers, poly(acrylic acid), poly(ethylene imine), poly(2-oxazoline), poly(isobutylene), poly(norbornene), etc., as well as metals are included with their synthetic organic synthesis applications. It is believed that this work will be of interest to organic chemists, material scientists, chemical engineers, polymer scientists and technologists.
Nanotechnology for Oil-Water Separation: From Fundamentals to Industrial Applications explores how nanotechnologically engineered solutions (modified meshes, carbon nanotubes, functionalized fabrics, textile or hybrid elements for bio-membranes, nanofibrous materials, and many more) can be used to remediate current damage to the environment for a better tomorrow. Design and fabrication of low-cost, effective and environmentally friendly micro/nanomaterials exhibiting strong wettability properties and mechanical and chemical stability are examined, along with current research developments and possible future directions, making this book an essential read for researchers, advanced students, and industry professionals with an interest in nanotechnology and sustainable (bio)technologies. The increasing amounts of industrial substances released by petrochemical, steel or gas-generating plants and food-processing factories into water poses an ever more serious environmental threat. Due to the significant adverse impact on the natural ecosystem, aquatic organisms and human health, the scientific community has made its priority to find sustainable methods to separate oil-water mixtures. - Provides an "all-in-one" reference on oil-water separation using cutting-edge, cost-effective, and environmentally-friendly nanotechnology-based solutions - Sheds light on the proper disposal, management and treatment processes of petroleum wastewater - Includes a discussion on new developments and findings, as well as challenges and concerns with an indication of where the field may move in coming years
Technology is significantly affected by a material’s ability to adapt to its environment in a beneficial way. These smart systems, in which material qualities react to outside stimuli, are currently being developed. These materials have the potential to significantly improve the performance of new systems by lowering size, weight, cost, power consumption, and complexity while enhancing effectiveness, safety, and adaptability. Materials can be multifunctional on a variety of temporal and compositional levels and at dimensions ranging from nano to macro. Innovative Multifunctional Nanomaterial for Photocatalysis, Sensing, and Imaging clarifies the type, chemical composition, and applications of multifunctional nanomaterials in photocatalysis, sensing, and imaging. This book discusses the most current advances in multifunctional materials for photocatalysis, sensing, and imaging in biological systems. Covering topics such as drug development, nanoparticles, and sensing, this premier reference source is an excellent resource for chemists, engineers, professionals, students and educators of higher education, researchers, and academicians.
This book emphasizes various challenges and opportunities in biopolymers and identifying their potential applications in various fields including food, pharmaceuticals, cosmetics, and electronics. It offers an overview of the environmental-related issues, regulatory and legislative issues, green extraction technologies, and sustainability challenges. It will be interesting and valuable for researchers working in the related field.