Smart Nanomaterials Technology Bionanohybrids for Removal of Heavy Metals

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Bol The book also highlights the challenges and limitations of this technology which is interesting to early researchers, academics and industrial practitioners who interested in the bioremediation of heavy metal pollutants present in the environment due to rapid industrialization and urbanization. This book comprehensively reviews the latest technology of bionanohybrids for application in the removal of heavy metal pollutants from industrial wastewater. The chapters in this book is written by leading experts in field and it provides detailed explanation for the synthesis, characterization and functionalization of bionanohybrids, their advantages and applications for removal of heavy metals from aqueous matrices. This book also provides insight into tools, tricks and challenges associated with fabrication techniques and future challenges and risks. Biopolymeric nanocomposites possess high surface area, more porous structure, high reactivity and less water solubility, giving it a great adsorption capacity towards heavy metals. Biopolymeric materials are also abundant, low cost, biodegradable and possess different functional moieties (carboxyl, amine, hydroxyl and carbonyl) which play role to adsorb metal ions through various interactions such as electrostatic, hydrogen bonding, ion exchange and chelation. In that light, this book covers various biopolymer based nanohybrids such as cellulose, gelatin, chitin and chitosan, lignin, pectin, alginate, dextran and carrageenan, starch and guar-gum, silk, collagen and keratin; and their properties, mechanism and efficiency in removing heavy metal pollutants from industrial wastewater. The book also highlights the challenges and limitations of this technology which is interesting to early researchers, academics and industrial practitioners who interested in the bioremediation of heavy metal pollutants present in the environment due to rapid industrialization and urbanization. This book comprehensively reviews the latest technology of bionanohybrids for application in the removal of heavy metal pollutants from industrial wastewater. The chapters in this book is written by leading experts in field and it provides detailed explanation for the synthesis, characterization and functionalization of bionanohybrids, their advantages and applications for removal of heavy metals from aqueous matrices. This book also provides insight into tools, tricks and challenges associated with fabrication techniques and future challenges and risks. Biopolymeric nanocomposites possess high surface area, more porous structure, high reactivity and less water solubility, giving it a great adsorption capacity towards heavy metals. Biopolymeric materials are also abundant, low cost, biodegradable and possess different functional moieties (carboxyl, amine, hydroxyl and carbonyl) which play role to adsorb metal ions through various interactions such as electrostatic, hydrogen bonding, ion exchange and chelation. In that light, this book covers various biopolymer based nanohybrids such as cellulose, gelatin, chitin and chitosan, lignin, pectin, alginate, dextran and carrageenan, starch and guar-gum, silk, collagen and keratin; and their properties, mechanism and efficiency in removing heavy metal pollutants from industrial wastewater. The book also highlights the challenges and limitations of this technology which is interesting to early researchers, academics and industrial practitioners who interested in the bioremediation of heavy metal pollutants present in the environment due to rapid industrialization and urbanization.

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The book also highlights the challenges and limitations of this technology which is interesting to early researchers, academics and industrial practitioners who interested in the bioremediation of heavy metal pollutants present in the environment due to rapid industrialization and urbanization. This book comprehensively reviews the latest technology of bionanohybrids for application in the removal of heavy metal pollutants from industrial wastewater. The chapters in this book is written by leading experts in field and it provides detailed explanation for the synthesis, characterization and functionalization of bionanohybrids, their advantages and applications for removal of heavy metals from aqueous matrices. This book also provides insight into tools, tricks and challenges associated with fabrication techniques and future challenges and risks. Biopolymeric nanocomposites possess high surface area, more porous structure, high reactivity and less water solubility, giving it a great adsorption capacity towards heavy metals. Biopolymeric materials are also abundant, low cost, biodegradable and possess different functional moieties (carboxyl, amine, hydroxyl and carbonyl) which play role to adsorb metal ions through various interactions such as electrostatic, hydrogen bonding, ion exchange and chelation. In that light, this book covers various biopolymer based nanohybrids such as cellulose, gelatin, chitin and chitosan, lignin, pectin, alginate, dextran and carrageenan, starch and guar-gum, silk, collagen and keratin; and their properties, mechanism and efficiency in removing heavy metal pollutants from industrial wastewater. The book also highlights the challenges and limitations of this technology which is interesting to early researchers, academics and industrial practitioners who interested in the bioremediation of heavy metal pollutants present in the environment due to rapid industrialization and urbanization. This book comprehensively reviews the latest technology of bionanohybrids for application in the removal of heavy metal pollutants from industrial wastewater. The chapters in this book is written by leading experts in field and it provides detailed explanation for the synthesis, characterization and functionalization of bionanohybrids, their advantages and applications for removal of heavy metals from aqueous matrices. This book also provides insight into tools, tricks and challenges associated with fabrication techniques and future challenges and risks. Biopolymeric nanocomposites possess high surface area, more porous structure, high reactivity and less water solubility, giving it a great adsorption capacity towards heavy metals. Biopolymeric materials are also abundant, low cost, biodegradable and possess different functional moieties (carboxyl, amine, hydroxyl and carbonyl) which play role to adsorb metal ions through various interactions such as electrostatic, hydrogen bonding, ion exchange and chelation. In that light, this book covers various biopolymer based nanohybrids such as cellulose, gelatin, chitin and chitosan, lignin, pectin, alginate, dextran and carrageenan, starch and guar-gum, silk, collagen and keratin; and their properties, mechanism and efficiency in removing heavy metal pollutants from industrial wastewater. The book also highlights the challenges and limitations of this technology which is interesting to early researchers, academics and industrial practitioners who interested in the bioremediation of heavy metal pollutants present in the environment due to rapid industrialization and urbanization.


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  • 9789819664207
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