Green and Sustainable Approaches Using Wastes for the Production of Multifunctional Nanomaterials focuses on the examination of green synthesis utilizing green waste materials derived from home and industrial applications. This book also examines the current state of material generations, future problems and their industrial constraints, and the synthesis of NMs for various applications such as medicinal, agriculture, environmental, food and beverage storage, and so on. The book includes the most recent practical and theoretical aspects of the use of waste materials released in the fabrication…mehr
Green and Sustainable Approaches Using Wastes for the Production of Multifunctional Nanomaterials focuses on the examination of green synthesis utilizing green waste materials derived from home and industrial applications. This book also examines the current state of material generations, future problems and their industrial constraints, and the synthesis of NMs for various applications such as medicinal, agriculture, environmental, food and beverage storage, and so on. The book includes the most recent practical and theoretical aspects of the use of waste materials released in the fabrication of various types of valuable nanomaterials, such as metal, metal oxide, polymeric, and graphene, among others. This is a relatively new concept in waste utilization, and green synthesis is a viable resource in making NPs. This book will also be valuable for waste management professionals who need proper disposal techniques for by-products.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
1. Global status of biogenic and nonbiogenic waste production and their employability in nanomaterial production 2. Sustainable advances in the synthesis of waste-derived value-added metal nanoparticles and their applications 3. Fundamental scope of nanomaterial synthesis from wastes 4. Anticipated challenges in the synthesis of different nanomaterials using biogenic waste 5. Domestic waste utilization in the synthesis of functional nanomaterial 6. Panorama of microbial regimes toward nanomaterials’ synthesis 7. Sustainable valorization of food waste for the biogeneration of nanomaterials 8. Industrial wastes and their suitability for the synthesis of nanomaterials 9. Scope to improve the synthesis of nanomaterial’s using industrial waste 10. Application and characterization of nonbiogenic synthesized nanomaterials 11. Nanomaterial synthesis using tire and plastic 12. Emerging biowaste-derived surfaces to support redox-sensitive nanoparticles: applications in removal of synthetic dyes 13. Nanomaterials synthesis from the industrial solid wastes 14. Nanomaterials’ synthesis from the industrial solid wastes 15. Green synthesis of nanomaterials from plant resources: its properties and applications 16. Nanotechnology for sustainable development and future: a review 17. Utilization of biogenic waste as a valuable calcium resource in the hydrothermal synthesis of calcium- orthophosphate nanomaterial 18. A review of plant-derived metallic nanoparticles synthesized by biosynthesis: synthesis, characterization, and applications 19. The intra- and extracellular mechanisms of microbially synthesized nanomaterials and their purification 20. Fundamental scope of nanomaterial synthesis from wastes 21. Application of nanomaterials synthesized using agriculture waste for wastewater treatment 22. Nanomaterial synthesis from the plant extract and tree part 23. Recent advances in agriculture waste for nanomaterial production 24. Nanomaterials’ synthesis from the fruit wastes
1. Global status of biogenic and nonbiogenic waste production and their employability in nanomaterial production 2. Sustainable advances in the synthesis of waste-derived value-added metal nanoparticles and their applications 3. Fundamental scope of nanomaterial synthesis from wastes 4. Anticipated challenges in the synthesis of different nanomaterials using biogenic waste 5. Domestic waste utilization in the synthesis of functional nanomaterial 6. Panorama of microbial regimes toward nanomaterials’ synthesis 7. Sustainable valorization of food waste for the biogeneration of nanomaterials 8. Industrial wastes and their suitability for the synthesis of nanomaterials 9. Scope to improve the synthesis of nanomaterial’s using industrial waste 10. Application and characterization of nonbiogenic synthesized nanomaterials 11. Nanomaterial synthesis using tire and plastic 12. Emerging biowaste-derived surfaces to support redox-sensitive nanoparticles: applications in removal of synthetic dyes 13. Nanomaterials synthesis from the industrial solid wastes 14. Nanomaterials’ synthesis from the industrial solid wastes 15. Green synthesis of nanomaterials from plant resources: its properties and applications 16. Nanotechnology for sustainable development and future: a review 17. Utilization of biogenic waste as a valuable calcium resource in the hydrothermal synthesis of calcium- orthophosphate nanomaterial 18. A review of plant-derived metallic nanoparticles synthesized by biosynthesis: synthesis, characterization, and applications 19. The intra- and extracellular mechanisms of microbially synthesized nanomaterials and their purification 20. Fundamental scope of nanomaterial synthesis from wastes 21. Application of nanomaterials synthesized using agriculture waste for wastewater treatment 22. Nanomaterial synthesis from the plant extract and tree part 23. Recent advances in agriculture waste for nanomaterial production 24. Nanomaterials’ synthesis from the fruit wastes
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