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Foundations of nanotechnology : nanoelements formation and interaction / / Sabu Thomas, PhD, Saeedeh Rafiei, Shima Maghsoodlou, and Arezo Afzali
Foundations of nanotechnology : nanoelements formation and interaction / / Sabu Thomas, PhD, Saeedeh Rafiei, Shima Maghsoodlou, and Arezo Afzali
Autore Thomas Sabu
Edizione [First edition.]
Pubbl/distr/stampa Waretown, N.J. : , : Apple Academic Press, Inc., , 2015
Descrizione fisica 1 online resource (411 p.)
Disciplina 620.5
Collana AAP Research Notes on Nanoscience & Nanotechnology
Soggetto topico Nanotechnology
ISBN 1-77463-105-9
0-429-17063-7
1-77188-028-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; ABOUT AAP RESEARCH NOTES ON NANOSCIENCE & NANOTECHNOLOGY; BOOKS IN THE AAP RESEARCH NOTES ON NANOSCIENCE & NANOTECHNOLOGY BOOK SERIES; ABOUT THE AUTHORS; CONTENTS; LIST OF ABBREVIATIONS; LIST OF SYMBOLS; PREFACE; CHAPTER 1: NANOSCALE SCIENCE AND TECHNOLOGY: AN OVERVIEW; CHAPTER 2: NANOELEMENT MANUFACTURING:SELF-ASSEMBLY; CHAPTER 3: NANOMATERIALS: PROPERTIES AND APPLICATION; CHAPTER 4: MODELING AND SIMULATION; CHAPTER 5: MOLECULAR SIMULATION FORNANOMATERIALS; CHAPTER 6: NUMERICAL SIMULATION OF NANOELEMENTS; CHAPTER 7: NUMERICAL STUDY OF AXIAL AND COAXIAL ELECTROSPINNING PROCESS
Record Nr. UNINA-9910787851303321
Thomas Sabu  
Waretown, N.J. : , : Apple Academic Press, Inc., , 2015
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Foundations of nanotechnology : nanoelements formation and interaction / / Sabu Thomas, PhD, Saeedeh Rafiei, Shima Maghsoodlou, and Arezo Afzali
Foundations of nanotechnology : nanoelements formation and interaction / / Sabu Thomas, PhD, Saeedeh Rafiei, Shima Maghsoodlou, and Arezo Afzali
Autore Thomas Sabu
Edizione [First edition.]
Pubbl/distr/stampa Waretown, N.J. : , : Apple Academic Press, Inc., , 2015
Descrizione fisica 1 online resource (411 p.)
Disciplina 620.5
Collana AAP Research Notes on Nanoscience & Nanotechnology
Soggetto topico Nanotechnology
ISBN 1-77463-105-9
0-429-17063-7
1-77188-028-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; ABOUT AAP RESEARCH NOTES ON NANOSCIENCE & NANOTECHNOLOGY; BOOKS IN THE AAP RESEARCH NOTES ON NANOSCIENCE & NANOTECHNOLOGY BOOK SERIES; ABOUT THE AUTHORS; CONTENTS; LIST OF ABBREVIATIONS; LIST OF SYMBOLS; PREFACE; CHAPTER 1: NANOSCALE SCIENCE AND TECHNOLOGY: AN OVERVIEW; CHAPTER 2: NANOELEMENT MANUFACTURING:SELF-ASSEMBLY; CHAPTER 3: NANOMATERIALS: PROPERTIES AND APPLICATION; CHAPTER 4: MODELING AND SIMULATION; CHAPTER 5: MOLECULAR SIMULATION FORNANOMATERIALS; CHAPTER 6: NUMERICAL SIMULATION OF NANOELEMENTS; CHAPTER 7: NUMERICAL STUDY OF AXIAL AND COAXIAL ELECTROSPINNING PROCESS
Record Nr. UNINA-9910824830703321
Thomas Sabu  
Waretown, N.J. : , : Apple Academic Press, Inc., , 2015
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Fundamental biomaterials : polymers / / Sabu Thomas, Preetha Balakrishnan, Sreekala M. S
Fundamental biomaterials : polymers / / Sabu Thomas, Preetha Balakrishnan, Sreekala M. S
Autore Thomas Sabu
Pubbl/distr/stampa Cambridge, Massachusetts : , : Woodhead Publishing, , 2018
Descrizione fisica 1 online resource (339 pages) : illustrations
Disciplina 572.33
Collana Woodhead Publishing Series in Biomaterials
Soggetto topico Biopolymers
Biotechnology
ISBN 0-08-102195-X
0-08-102194-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910583499403321
Thomas Sabu  
Cambridge, Massachusetts : , : Woodhead Publishing, , 2018
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Fundamental biomaterials : ceramics / / Sabu Thomas, Preetha Balakrishnan, M.S. Sreekala
Fundamental biomaterials : ceramics / / Sabu Thomas, Preetha Balakrishnan, M.S. Sreekala
Autore Thomas Sabu
Pubbl/distr/stampa Duxford, Kidlington, England ; ; Cambridge, Massachusetts : , : Woodhead Publishing, , 2018
Descrizione fisica 1 online resource (500 pages) : illustrations
Disciplina 610.28
Collana Woodhead Publishing Series in Biomaterials
Soggetto topico Ceramics in medicine
Biomedical materials
ISBN 0-08-102204-2
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910583040303321
Thomas Sabu  
Duxford, Kidlington, England ; ; Cambridge, Massachusetts : , : Woodhead Publishing, , 2018
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Handbook of Biomass
Handbook of Biomass
Autore Thomas Sabu
Edizione [1st ed.]
Pubbl/distr/stampa Singapore : , : Springer Singapore Pte. Limited, , 2024
Descrizione fisica 1 online resource (1554 pages)
Altri autori (Persone) HosurMahesh
PasquiniDaniel
Jose ChirayilCintil
ISBN 9789819967278
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910865259103321
Thomas Sabu  
Singapore : , : Springer Singapore Pte. Limited, , 2024
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Handbook of engineering and specialty thermoplastics . Vol. 3 Polyethers and polyesters [[electronic resource] /] / Sabu Thomas and Visakh P.M
Handbook of engineering and specialty thermoplastics . Vol. 3 Polyethers and polyesters [[electronic resource] /] / Sabu Thomas and Visakh P.M
Autore Thomas Sabu
Pubbl/distr/stampa Hoboken N.J., : Wiley, 2011
Descrizione fisica 1 online resource (564 p.)
Disciplina 668.423
668.4234
Altri autori (Persone) P. MVisakh
Collana Wiley-Scrivener
Soggetto topico Polyethers
Polyesters
ISBN 1-283-17700-5
9786613177001
1-118-10472-2
1-118-10473-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Handbook of Engineering and Specialty Thermoplastics: Polyethers and Polyesters; Contents; List of Contributors; 1. Engineering and Specialty Thermoplastics: Polyethers and Polyesters; 1.1 Introduction; 1.2 Polyesters Synthesis; 1.3 Polyethers; 1.3.1 Aromatic Polyethers; 1.4 Individual Polyethers and Polyesters and Their Application; 1.4.1 Poly (Phenylene Oxide); 1.4.2 Polyether Ether Ketone; 1.4.3 Poly(Ethylene Terephthalate); 1.4.4 Poly(Butylene Terephthalate); 1.4.5 Polyesters Containing Cyclohexanedimethanol Units; 1.4.6. Liquid Crystal Polyesters; 1.4.7 Polylactide
1.4.8 Thermoplastic Copolyester Elastomers (TPEEs)1.4.9 Polycarbonate (PC); 1.5 New Challenges and Opportunities; References; 2. Poly(phenylene oxide); 2.1 Introduction and History; 2.2 Monomer; 2.3 Polymerization and Mechanism; 2.4 Properties; 2.5 Compounding and Special Additives; 2.6 Processing; 2.7 Applications; 2.8 Environmental Impact and Recycling; 2.9 Recent Developments in Poly Phenylene Oxide Based Blends and Composites and Their Applications; References; 3. Polyether Ether Ketone; 3.1 Introduction and History; 3.2 Polymerization and Fabrication; 3.3 Properties
3.3.1 Solution Properties3.3.2 Thermal Properties; 3.3.2.1 Melting and Crystallization; 3.3.2.2 Crystallization Kinetics; 3.3.2.3 Spherulites; 3.3.2.4 Decomposition; 3.3.3 Mechanical Properties; 3.3.3.1 Tensile Properties; 3.3.3.2 Fracture Toughness; 3.3.3.3 Tensile Creep; 3.3.3.4 Compressive Properties; 3.3.3.5 Taylor Impact; 3.3.3.6 Tribological Behavior; 3.4 Chemical Properties; 3.5 Environmental Resistance; 3.6 Compounding and Special Additives; 3.7 Processing; 3.8 Applications; 3.9 Environmental Impact and Recycling
3.10 Recent Developments in PEEK Based Blends and Composites and Their ApplicationsReferences; 4. Poly(ethylene terephthalate); 4.1 Introduction and History; 4.2 Polymerization and Fabrication; 4.2.1 First Step: Prepolymerization; 4.2.2 Second Step: Polycondensation; 4.2.3 Solid-State Polymerization; 4.3 Solid-State Properties; 4.3.1 Mechanical Properties; 4.3.2 Thermal Properties; 4.3.3 Gas Barrier Properties; 4.3.4 Other Physical Properties; 4.4 Chemical Stability; 4.4.1 Solubility and Chemical Resistance of PET; 4.4.2 Hydrolytic Degradation of PET; 4.4.2 Thermal Degradation of PET
4.4.3 Thermo-oxidative Degradation of PET4.5 Compounding and Special Additives; 4.6 Processing; 4.6.1 Extrusion; 4.6.2 Injection Molding; 4.6.3 Blow Molding; 4.7 Applications; 4.7.1 PET Fibers; 4.7.2 PET Films; 4.7.3 PET Bottles; 4.8 Environmental Impact and Recycling; 4.8.1 Generality about PET Recycling; 4.8.2 Chemical Recycling of PET; 4.8.2.1 Methanolysis; 4.8.2.2 Glycolysis; 4.8.2.3 Hydrolysis; 4.8.2.4 Others methods; 4.8.3 Mechanical Recycling; 4.8.4 Recent Developments in PET Recycling
4.9 Recent Developments in Poly(ethylene terephthalate) Based Blends and Composites and Their Applications
Record Nr. UNINA-9910139642603321
Thomas Sabu  
Hoboken N.J., : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Handbook of engineering and specialty thermoplastics . Vol. 3 Polyethers and polyesters [[electronic resource] /] / Sabu Thomas and Visakh P.M
Handbook of engineering and specialty thermoplastics . Vol. 3 Polyethers and polyesters [[electronic resource] /] / Sabu Thomas and Visakh P.M
Autore Thomas Sabu
Pubbl/distr/stampa Hoboken N.J., : Wiley, 2011
Descrizione fisica 1 online resource (564 p.)
Disciplina 668.423
668.4234
Altri autori (Persone) P. MVisakh
Collana Wiley-Scrivener
Soggetto topico Polyethers
Polyesters
ISBN 1-283-17700-5
9786613177001
1-118-10472-2
1-118-10473-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Handbook of Engineering and Specialty Thermoplastics: Polyethers and Polyesters; Contents; List of Contributors; 1. Engineering and Specialty Thermoplastics: Polyethers and Polyesters; 1.1 Introduction; 1.2 Polyesters Synthesis; 1.3 Polyethers; 1.3.1 Aromatic Polyethers; 1.4 Individual Polyethers and Polyesters and Their Application; 1.4.1 Poly (Phenylene Oxide); 1.4.2 Polyether Ether Ketone; 1.4.3 Poly(Ethylene Terephthalate); 1.4.4 Poly(Butylene Terephthalate); 1.4.5 Polyesters Containing Cyclohexanedimethanol Units; 1.4.6. Liquid Crystal Polyesters; 1.4.7 Polylactide
1.4.8 Thermoplastic Copolyester Elastomers (TPEEs)1.4.9 Polycarbonate (PC); 1.5 New Challenges and Opportunities; References; 2. Poly(phenylene oxide); 2.1 Introduction and History; 2.2 Monomer; 2.3 Polymerization and Mechanism; 2.4 Properties; 2.5 Compounding and Special Additives; 2.6 Processing; 2.7 Applications; 2.8 Environmental Impact and Recycling; 2.9 Recent Developments in Poly Phenylene Oxide Based Blends and Composites and Their Applications; References; 3. Polyether Ether Ketone; 3.1 Introduction and History; 3.2 Polymerization and Fabrication; 3.3 Properties
3.3.1 Solution Properties3.3.2 Thermal Properties; 3.3.2.1 Melting and Crystallization; 3.3.2.2 Crystallization Kinetics; 3.3.2.3 Spherulites; 3.3.2.4 Decomposition; 3.3.3 Mechanical Properties; 3.3.3.1 Tensile Properties; 3.3.3.2 Fracture Toughness; 3.3.3.3 Tensile Creep; 3.3.3.4 Compressive Properties; 3.3.3.5 Taylor Impact; 3.3.3.6 Tribological Behavior; 3.4 Chemical Properties; 3.5 Environmental Resistance; 3.6 Compounding and Special Additives; 3.7 Processing; 3.8 Applications; 3.9 Environmental Impact and Recycling
3.10 Recent Developments in PEEK Based Blends and Composites and Their ApplicationsReferences; 4. Poly(ethylene terephthalate); 4.1 Introduction and History; 4.2 Polymerization and Fabrication; 4.2.1 First Step: Prepolymerization; 4.2.2 Second Step: Polycondensation; 4.2.3 Solid-State Polymerization; 4.3 Solid-State Properties; 4.3.1 Mechanical Properties; 4.3.2 Thermal Properties; 4.3.3 Gas Barrier Properties; 4.3.4 Other Physical Properties; 4.4 Chemical Stability; 4.4.1 Solubility and Chemical Resistance of PET; 4.4.2 Hydrolytic Degradation of PET; 4.4.2 Thermal Degradation of PET
4.4.3 Thermo-oxidative Degradation of PET4.5 Compounding and Special Additives; 4.6 Processing; 4.6.1 Extrusion; 4.6.2 Injection Molding; 4.6.3 Blow Molding; 4.7 Applications; 4.7.1 PET Fibers; 4.7.2 PET Films; 4.7.3 PET Bottles; 4.8 Environmental Impact and Recycling; 4.8.1 Generality about PET Recycling; 4.8.2 Chemical Recycling of PET; 4.8.2.1 Methanolysis; 4.8.2.2 Glycolysis; 4.8.2.3 Hydrolysis; 4.8.2.4 Others methods; 4.8.3 Mechanical Recycling; 4.8.4 Recent Developments in PET Recycling
4.9 Recent Developments in Poly(ethylene terephthalate) Based Blends and Composites and Their Applications
Record Nr. UNINA-9910822808403321
Thomas Sabu  
Hoboken N.J., : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Nanomaterials in dental medicine / / Sabu Thomas and R. M. Baiju
Nanomaterials in dental medicine / / Sabu Thomas and R. M. Baiju
Autore Thomas Sabu
Edizione [1st ed. 2023.]
Pubbl/distr/stampa Singapore : , : Springer Nature Singapore, , [2023]
Descrizione fisica 1 online resource (264 pages)
Disciplina 617.695
Collana Materials Horizons: From Nature to Nanomaterials
Soggetto topico Dental materials
Nanostructured materials
ISBN 9789811987182
9789811987175
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Nano Technology and Medicine: The Interphase -- Nano Material Applications in Oral and Dental Diagnosis -- Nano Technology and Dental Disease Prevention -- Nano Composites and Other Restorative Materials -- Sustained Drug Delivery – The Nano Advantage -- Nano Technology for Pain Free Dentistry -- Dental Applications of Nano Robotics -- Nano Biotechnology in Regenerative Medicine -- Nano Technology in Dental Implantology -- Therapeutic Applications of Nano Particles in Oral Cancer Therapy -- Nano Structured Materials in Dental Medicine- From Laboratory to Industry: New Opportunities, Challenges and Risks -- Bio Ceramic Dental Inserts -- Potential Hazards of Nano Structured Dental Materials.
Record Nr. UNINA-9910686785603321
Thomas Sabu  
Singapore : , : Springer Nature Singapore, , [2023]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Nanotechnology for Environmental Remediation
Nanotechnology for Environmental Remediation
Autore Thomas Sabu
Pubbl/distr/stampa Newark : , : John Wiley & Sons, Incorporated, , 2022
Descrizione fisica 1 online resource (467 pages)
Altri autori (Persone) ThomasMerin Sara
PothenLaly A
ISBN 3-527-83414-1
3-527-83416-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright -- Contents -- Foreword -- Preface -- Chapter 1 Science and Technology of Nanomaterials: Introduction -- 1.1 Introduction -- 1.2 Classification of Nanomaterials -- 1.3 Classes of Nanomaterials -- 1.3.1 Organic Nanoparticles -- 1.3.2 Inorganic Nanoparticles -- 1.3.3 Carbon‐Based Nanoparticles -- 1.4 Properties of Nanomaterials -- 1.4.1 Size and Surface Area -- 1.4.2 Mechanical Properties -- 1.4.3 Optical and Electrical Properties -- 1.4.4 Magnetic Properties -- 1.5 Characterization of Nanomaterials -- 1.5.1 Surface Morphology, Surface Area, Size, and Shape of Nanoparticles -- 1.5.2 Elemental and Mineral Composition -- 1.5.3 Structures and Bonds in Nanoparticles -- 1.6 Current State of Nanotechnology -- 1.7 Safety Issues of Nanotechnology -- 1.8 Conclusion -- References -- Chapter 2 Nanoremediation: A Brief Introduction -- 2.1 Introduction -- 2.2 Mechanism of Nanoremediation -- 2.3 Nanotechnology for Disinfection -- 2.4 Nanotechnology for Removal of Heavy Metals and Ions -- 2.5 Nanotechnology for Removal of Organic Contaminants -- 2.6 Nanotechnology for Oil/Water Separation -- 2.7 Challenges in Nanoremediation -- 2.8 Conclusion -- References -- Chapter 3 Nanotechnology in Soil Remediation -- 3.1 Impact of ENMs on the Environment and Microorganisms -- 3.2 Engineered Nanomaterials in Soil Remediation -- 3.2.1 Iron‐Based Nanomaterials -- 3.2.2 TiO2‐Based Nanomaterials -- 3.2.3 Carbon‐Based Nanomaterials -- 3.2.4 Silica‐Based Nanomaterials -- 3.3 Nanotechnology in Soil Remediation -- 3.3.1 TiO2 Nanoparticles -- 3.3.2 Iron Nanoparticles -- 3.3.3 Silica Nanoparticles -- 3.3.4 Carbon‐Based Nanoparticles -- 3.3.5 Silver Nanoparticles -- 3.4 Conclusion -- References -- Chapter 4 Nanotechnology for Water Treatment: Recent Advancement in the Remediation of Organic and Inorganic Compounds -- 4.1 Introduction.
4.1.1 Classification and Synthesis Routes of Nanomaterials -- 4.2 Application of Nanotechnology -- 4.2.1 Heavy Metal Removal -- 4.2.2 Dye Removal -- 4.2.3 Organochlorine Compounds (OCCs) Removal -- 4.2.4 Inorganic Anions -- 4.3 Conclusions -- References -- Chapter 5 Nanotechnology in Air Pollution Remediation -- 5.1 Introduction -- 5.2 Recent Developments in Nanotechnology for Air Pollution Remediation -- 5.2.1 Nanoadsorbents -- 5.2.2 Nanofilters and Nanostructured Membranes -- 5.2.3 Nanocatalysts -- 5.2.4 Nanosensors -- 5.2.4.1 Detection of NO2 -- 5.2.4.2 Detection of H2S -- 5.2.4.3 Detection of SO2 -- 5.3 Adverse Impact of the Nanomaterials in the Environment -- 5.4 Future Directions -- Acknowledgment -- References -- Chapter 6 Nanomaterials in Filtration -- 6.1 Introduction -- 6.2 Nanofiber in Air Filtration -- 6.2.1 Pure Nanofiber in Air Filtration -- 6.2.2 Polymer-Nanofiber Composite in Air Filtration -- 6.2.3 MOF-Nanofiber Composite in Air Filtration -- 6.2.4 Nanomaterial-Nanofiber Hybrid in Air Filtration -- 6.2.5 Window Screening -- 6.3 Nanofiber in Wastewater Filtration -- 6.3.1 Oil-Water Separation -- 6.3.2 Antifouling -- 6.3.3 Organic and Inorganic Pollutant Removal -- 6.3.4 Microorganism Removal -- 6.4 Conclusion -- References -- Chapter 7 Nanoadsorbents for Environmental Remediation -- 7.1 Introduction -- 7.2 Properties and Synthesis of Nanomaterials -- 7.3 Different Classes of Nanoadsorbents for Removal of Contaminants from Wastewater -- 7.3.1 Carbon‐Based Nanoadsorbents -- 7.3.2 Silica‐Based Nanoadsorbents -- 7.3.3 Metal‐Based Nanoadsorbents -- 7.3.4 Polymer‐Based Nanoadsorbents -- 7.4 Conclusion -- References -- Chapter 8 Visible‐Light Photocatalytic Degradation of Heavy Metal Ion Hexavalent Chromium [Cr(VI)] -- 8.1 Introduction -- 8.2 Modifications in TiO2 for Visible‐Light Activity -- 8.2.1 Coupling of Transition Metal Oxide.
8.2.1.1 Simple Metal Oxides -- 8.2.1.2 Spinel‐Type Mixed Metal Oxides -- 8.2.2 Coupling of Metal Sulfides -- 8.2.3 Coupling of Noble Metals -- 8.2.4 Synergetic Conversion and Capacitive Deionization -- 8.3 Stability of the Photocatalyst -- 8.4 Conclusion -- 8.4.1 Current Scenario -- 8.4.2 Challenges -- 8.4.3 Future Perspectives -- References -- Chapter 9 Phytonanotechnology for Remediation of Heavy Metals and Dyes -- 9.1 Introduction -- 9.2 Environmental Pollution and Health Impacts -- 9.2.1 Heavy Metals and Associated Environmental and Public Health Issues -- 9.2.2 Dyes and Associated Environmental and Public Health Issues -- 9.3 Environmental Pollution and Remediation Strategies -- 9.3.1 Mycoremediation -- 9.3.2 Phytoremediation -- 9.3.3 Phycoremediation -- 9.3.4 Biostimulation -- 9.3.5 Rhizofiltration -- 9.4 Phyto‐nanotechnological Approach for Remediation of Environmental Pollutants -- 9.4.1 Heavy Metals Remediation Potential of Plant‐Based Nanomaterials -- 9.4.2 Dyes Remediation Potential of Plant‐Based Nanomaterials -- 9.5 Prospect and Challenges to Phytonanoremediation -- 9.6 Concluding Remarks -- References -- Chapter 10 Surface‐Functionalized Gold Nanoparticles for Environmental Remediation -- 10.1 Introduction -- 10.2 Fundamentals of Gold Nanoparticles -- 10.3 Significance of Gold Nanoparticles -- 10.4 Importance of Surface‐Functionalized Gold Nanoparticles -- 10.5 Applications of Gold Nanoparticles -- 10.6 Synthesis and Characterization of Rhodamine 6G‐Functionalized Gold Nanoparticles (Rh6G‐AuNPs) -- 10.6.1 Synthesis of Rh6G‐AuNPs by Reduction Method -- 10.6.2 Characterization of Rh6G‐AuNPs -- 10.6.2.1 X‐ray Diffraction Studies -- 10.6.2.2 Morphological Analysis -- 10.6.2.3 XPS studies -- 10.6.2.4 Raman Spectroscopy Analysis -- 10.6.2.5 Thermal Studies -- 10.7 Interaction of Rhodamine 6G‐Functionalized AuNPs with Heavy Metal Ion.
10.7.1 Selectivity and Sensitivity Studies -- 10.7.1.1 Time‐Resolved Fluorescence Measurements -- 10.7.1.2 Stability Measurements -- 10.8 Application of Rh6G‐AuNPs -- 10.8.1 Real Water Sample Analysis -- 10.8.2 Cytotoxicity Test -- 10.9 Conclusion -- Acknowledgments -- References -- Chapter 11 Metal Oxide Nanoparticles for Environmental Remediation -- 11.1 Introduction -- 11.2 Synthesis of Metal Oxide Nanoparticles -- 11.2.1 Physical Methods -- 11.2.1.1 Chemical Vapor Synthesis -- 11.2.1.2 Laser Ablation Method -- 11.2.1.3 Mechanical Milling Technique -- 11.2.2 Chemical Methods -- 11.2.2.1 Co‐precipitation Method -- 11.2.2.2 Sol-Gel Method -- 11.2.2.3 Solvothermal Method -- 11.2.3 Biological Methods -- 11.2.3.1 Plant Mediated Synthesis -- 11.2.3.2 Microbial Mediated Synthesis -- 11.3 Environmental Remediation Using MeO NPs -- 11.3.1 Adsorption -- 11.3.2 Catalysis -- 11.3.3 Antimicrobial Activity -- 11.4 Different MeO NPs in Remediation -- 11.4.1 Titanium Oxide Nanoparticles -- 11.4.2 Zinc Oxide Nanoparticles -- 11.4.3 Iron‐Based Oxides -- 11.4.4 Copper Oxide -- 11.4.5 Tin Oxide Nanoparticles -- 11.4.6 Tungsten Oxide Nanoparticles -- 11.4.7 Other Metal Oxide Nanoparticles -- 11.5 Conclusion and Prospects -- Acknowledgments -- References -- Chapter 12 Functionalized Nanoparticles for Environmental Remediation -- 12.1 Introduction -- 12.2 Nanoparticles for Environmental Remediation and Functionalization -- 12.2.1 Metallic and Metal Oxide NPs -- 12.2.1.1 Silver and Gold NPs -- 12.2.1.2 Titanium Dioxide NPs -- 12.2.1.3 Magnetic Iron Oxide NPs -- 12.2.2 Silica and Polymeric NPs -- 12.2.3 Carbon NMs -- 12.2.4 2D NMs -- 12.2.5 Micromotors -- 12.3 Nanofiltration with Functionalized NPs -- 12.4 Nanophotocatalytic Degradation with Functionalized NPs -- 12.5 Chemical Degradation of Pollutants Assisted with Functionalized NPs -- Acknowledgments -- References.
Chapter 13 Dendrimers for Environmental Remediation -- 13.1 Introduction -- 13.2 Synthesis Methods -- 13.2.1 Divergent Approach -- 13.2.2 Convergent Method -- 13.3 Physicochemical Properties of Dendrimers -- 13.4 Environmental Application of Dendrimers -- 13.4.1 Water Purification Process Using Functionalized Dendrimers -- 13.4.2 Dendrimers Application in Photocatalysis -- 13.4.3 Dendrimers Application in Soil Remediation -- 13.4.4 Dendrimers Application in Air Remediation -- 13.5 Conclusion -- Acknowledgment -- References -- Chapter 14 Nanocrystals for Environmental Remediation -- 14.1 Introduction -- 14.1.1 Environmental Remediation Techniques -- 14.1.1.1 Photocatalysis -- 14.1.2 Different Types of Nanomaterial Used for Environmental Remediation -- 14.1.2.1 Metal Oxides‐Based Nanostructure -- 14.1.2.2 Nanocomposite‐Based Photocatalyst -- 14.1.2.3 Magnetic Nanomaterial -- 14.1.3 Nanostructured Material as Efficient Antibacterial Agents -- References -- Chapter 15 Enzyme Nanoparticles for Environmental Remediation -- 15.1 Introduction -- 15.2 Sources of Various Enzymes Used for Environmental Remediation -- 15.3 Various Enzyme‐Immobilized Nanoparticles for Environmental Remediation -- 15.3.1 Magnetic Nanoparticles -- 15.3.2 Mesoporous Nanoparticles -- 15.3.3 Carbon‐Based Nanoparticles -- 15.3.4 Carbon Nanotubes -- 15.3.5 Role of Nanoparticles in Environmental Remediation -- 15.4 Importance of Enzyme Nanoparticles in Remediation -- 15.4.1 Advantages of Enzyme Nanoparticles -- 15.5 Challenges in the Bioremediation Through Enzyme Nanoparticles -- 15.6 Conclusion -- References -- Chapter 16 Nanofibers for Environmental Remediation -- 16.1 Introduction -- 16.2 Cellulose -- 16.2.1 Chemical Structure and Reactivity -- 16.2.2 The Origin of Cellulose Nanofibers -- 16.2.3 Surface Modification of Cellulose Nanofibers.
16.2.4 Treatments to Modify Cellulose Nanofiber Surface.
Record Nr. UNINA-9910590098303321
Thomas Sabu  
Newark : , : John Wiley & Sons, Incorporated, , 2022
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Quantum Dots Based Nanocomposites : Design, Fabrication and Emerging Applications
Quantum Dots Based Nanocomposites : Design, Fabrication and Emerging Applications
Autore Thomas Sabu
Edizione [1st ed.]
Pubbl/distr/stampa Cham : , : Springer, , 2024
Descrizione fisica 1 online resource (483 pages)
Altri autori (Persone) DasPoushali
GangulySayan
Collana Engineering Materials Series
ISBN 9783031547799
9783031547782
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- Preface -- Contents -- Introduction to Quantum Dots Based Nanostructures -- 1 Introduction -- 2 Synthesis Methods for QD/Polymer Composites -- 3 Properties of QDs -- 3.1 Size-Dependent Optical Properties -- 3.2 Exceptional Photostability -- 3.3 High Quantum Yields -- 3.4 Tunable Emission Wavelength -- 3.5 Broad Absorption Spectrum -- 3.6 Size-Dependent Electrical Properties -- 3.7 Quantum Confinement Effects -- 4 Applications -- 4.1 Solar Energy Conversion -- 4.2 Photoelectrochemical Water Splitting -- 4.3 Agriculture Sector -- 4.4 Anti-Counterfeit and Security -- 5 Conclusions -- References -- Discovery and History of Quantum Dots -- 1 Introduction -- 1.1 What Are Quantum Dots? -- 1.2 Early History of Quantum Dots -- 1.3 First Synthesis of Quantum Dots -- 2 Key Contributions from Early Researchers -- 3 Advancements in Quantum Dot Synthesis -- 4 Discussion of the Role of Surface Chemistry in Quantum Dot Synthesis -- 5 Properties of Quantum Dots -- 6 Overview of the Application of Quantum Dots in Various Fields -- 7 Quantum Dot Technology -- 8 Commercialization of Quantum Dots -- 9 Challenges and Opportunities in the Commercialization of Quantum Dots -- 10 Future of Quantum Dots -- 11 Conclusion -- References -- Synthesis Strategies of Doped QDs -- 1 Introduction -- 2 Different Doping Strategies of QDs -- 2.1 Extrinsic Doping Strategies -- 2.2 Intrinsic Doping -- 3 Factors Influencing Doping Efficiency -- 4 Role of Doping Precursor Concentration -- 4.1 Role of Reaction Temperature and Time -- 4.2 Role of QD Size and Shape -- 5 Strategies to Optimize Doping Efficiency -- 6 Applications of Doped QDs -- 6.1 Bioimaging -- 6.2 Optoelectronics -- 6.3 Photovoltaics -- 6.4 Catalysis -- 7 Prospects for Future Developments and Applications -- 8 Present Market of Doped QDs -- 9 Conclusion -- References -- Quantum Dots Based Nanocomposites.
1 Introduction -- 2 Chemical Synthesis Techniques -- 3 Sol-Gel Synthesis -- 4 Physical Synthesis Techniques -- 5 Vapor Deposition -- 6 Electrochemical Synthesis -- 7 Characterization Techniques for Quantum Dots-Polymer Composites -- 8 Conclusion -- References -- Properties of Quantum Dots Based Nanocomposites -- 1 Introduction -- 2 Quantum Dots and Nanocomposites -- 3 Graphene Quantum Dots (GQDs) Based Nanocomposites -- 4 Porphyrin-Quantum Dots-Nanocomposites and Their Derivatives -- 5 A Comparison Between Graphene and Carbon Quantum Dots (CQDS/GQDS) -- 6 Epoxy-Graphene Quantum Dots Nanocomposites -- 7 Zinc Oxide Quantum Dots/Graphene Nanocomposites -- 8 Chitosan Based Carboxymethyl Nanocomposites with Chemically Bonded Quantum Dots -- 9 CdS and CdSe Quantum Dots in Poly (3-Hexylthiophene) Based Nanocomposites -- 10 Poly(Methyl Methacrylate)/ZnO Nanocomposites Based on KH570 Surface Modified ZnO Quantum Dots -- 11 Nanocomposites Based on an Oxadiazole-Carbazole Copolymer (POC) and InP/ZnS Quantum Dots -- 12 CuInS2 Quantum Dots@Graphene Oxide Nanocomposites -- 13 Polyurethane-Based Bulk Nanocomposites from 1-Thioglycerol-Stabilized CdTe Quantum Dots -- 14 Conclusion -- References -- Quantum Dots/Polymer Composites -- 1 Introduction -- 2 Synthesis -- 2.1 Solution Mixing -- 2.2 Template Synthesis -- 2.3 Grafting -- 2.4 Hydrothermal/Solvothermal -- 2.5 Electrochemical Method -- 2.6 Chemical Oxidation -- 2.7 Wrapping -- 2.8 Sol-gel Method -- 3 Reinforcements, Design, and Fabrication -- 3.1 Surface Fabrication of QDs -- 3.2 Composite Fabrication -- 3.3 Composite Stability -- 4 Applications -- 4.1 Light Emitting Diodes and Displays -- 4.2 Sensors -- 4.3 Photovoltaics -- 4.4 Catalysis -- 4.5 Biomedical -- 5 Conclusion -- References -- Quantum Dots@Metal-Organic Frameworks Composites -- 1 Introduction.
2 Historical Evaluation of MOFs, QDs and Composites (Cos) -- 3 Synthesis Techniques of QD@MOF Cos -- 4 Structural Features and Properties of MOFs@QDs Cos -- 5 Applications of QDs@MOFs Cos -- 5.1 Sensing -- 5.2 Detection of Dopamine -- 5.3 Sensing of Endocrine-Disrupting Chemicals -- 5.4 Detection of Ascorbic Acid -- 5.5 Highly Sensitive Detection of 4-nitrophenol -- 5.6 Selective Gossypol Detection -- 5.7 Targeted Drug Delivery -- 5.8 Energy Storage Applications -- 5.9 Electrocatalysis -- 5.10 Antibacterial Activity -- 5.11 Photocatalysis -- 5.12 Photocatalytic Activity -- 6 Conclusion and Future Perspectives -- References -- Quantum Dots/2D Composites -- 1 Introduction -- 2 Fundamentals of QDs -- 3 Different Types of Quantum Dots/2D Composites -- 4 Conclusion -- References -- Quantum Dots/One-Dimensional (1D) Composites -- 1 Introduction -- 2 Synthesis Route of QD/1D -- 2.1 Titanate Nanotubes with QDs -- 2.2 Metal Oxide 1D Heterostructures with QD -- 2.3 Carbon-Based Nanotubes/Nanocage Anchored with QDs -- 2.4 Metal Sulfide 1D Structured with Metal QDs -- 3 Future Perspectives -- 4 Conclusions -- References -- Quantum Dots/Bioconjugates -- 1 Introduction -- 2 QDs for Biomedical -- 2.1 Semiconductor QDs -- 2.2 Metal-Doped QDs -- 2.3 Carbon‑Based QDs (C-dots) -- 3 QD Bioconjugation -- 3.1 QDs-Proteins Bioconjugation -- 3.2 QDs-DNA Bioconjugation -- 3.3 QD-Fluorophores Bioconjugation -- 4 Applications as Fluorescent Probes -- 5 Conclusion -- 6 Future Perspectives -- References -- Cytotoxicity of Quantum Dots Based Nanocomposites -- 1 Introduction -- 2 Nanocomposites Based on Quantum Dots -- 3 Cytotoxicity of Quantum Dots -- 4 Mechanisms of Cytotoxicity of Quantum Dots -- 5 Factors Influencing Cytotoxicity of Quantum Dots -- 6 In Vitro and in Vivo Assays for Evaluating Cytotoxicity of Quantum Dots -- 7 Cytotoxicity of Quantum Dots Based Nanocomposites.
8 Mechanisms of Cytotoxicity of Quantum Dots Based Nanocomposites -- 9 Cytotoxicity for Polymer Encapsulated QDs Systems -- 10 Strategies for Reducing Cytotoxicity of Quantum Dots Based Nanocomposites -- 11 Surface Functionalization -- 12 Encapsulation of Quantum Dots -- 13 Coating of Quantum Dots Based Nanocomposites -- 14 Conclusion and Future Outlooks -- References -- Quantum Dots-Based Nanocomposites as Biosensors -- 1 Introduction -- 2 QD for Biosensing -- 3 Nanocomposites for Biosensing -- 4 Quantum Dots-Based Nanocomposites for Biosensing -- 5 Challenges and Future Prospects -- 6 Conclusions -- References -- Quantum Dot-Based Nanocomposite as Metal Sensors -- 1 Introduction -- 2 Metal Sensing Mechanisms in QD-Based Nanocomposites -- 2.1 Fluorescence Quenching Mechanisms -- 2.2 Fluorescent Enhancement Mechanisms -- 2.3 Cation-Exchange -- 3 QD-Based Nanocomposites as Metal Sensors -- 3.1 Metal-Doped QDs Nanocomposites as Metal Sensors -- 3.2 QD-Based Polymeric Nanocomposites as Metal Sensors -- 3.3 QD-Based Magnetic Nanocomposites -- 3.4 QD-Based MOFs Nanocomposites as Metal Sensors -- 3.5 QD-Based Bioconjugates Nanocomposites as Metal Sensors -- 4 Challenges, Conclusion, and Future Perspectives -- References -- Quantum Dots Composites in Catalysis Applications -- 1 Introduction -- 2 Carbon QDs (CQDs)-Based Composites -- 3 Semiconductor QDs (SQDs)-Based Composites -- 4 Perovskite QDs (PQDs)-Based Composites -- 5 Conclusions -- References -- Quantum Dots Nanocomposites Bioimaging Probes -- 1 Introduction -- 2 Bioimaging -- 3 Quantum Dots Nanocomposites as Fluorescence Imaging Probe -- 4 Quantum Dots Nanocomposites Imaging Probe and PET Imaging -- 5 Quantum Dots Nanocomposites Application in Magnetic Resonance Imaging -- 6 Conclusion and Future Perspectives -- References -- Quantum Dots Nanocomposites as Drug Delivery Vehicle -- 1 Introduction.
2 Controlled Drug Delivery -- 3 Photothermal Therapy -- 4 Photodynamic Therapy -- 5 Conclusion and Future Perspectives -- References -- Quantum Dots Based Composites for Diagnostics -- 1 Introduction -- 2 Optical Properties of Quantum Dots -- 3 Properties and Advantages of Quantum Dots-Based Composites -- 4 Types of QDs Nanocomposites -- 4.1 QD-Polymer Nanocomposite -- 4.2 Silica-QD Nanocomposites -- 5 Applications of Quantum Dots-Based Composites in Diagnostics -- 5.1 Drug Delivery -- 5.2 Immunoassays for Biomarker Detection -- 5.3 In-Vivo Diagnostics -- 6 Challenges and Limitations -- 7 Conclusion -- References -- Suitability of Hybrid Quantum Dots as Payload for Plants -- 1 Introduction -- 2 Different Types of Nanocarriers for Plants -- 3 Uptake, Translocation and Accumulation of CDs in Plants -- 4 QDs Delivery in Plants -- 5 Challenges and Future Perspectives -- 6 Summary -- References -- Quantum Dots in Light Emitting Diode and Their Applications -- 1 Introduction -- 1.1 Color Scheme -- 1.2 Color Temperature and Color Rendering Index -- 2 QLEDs Structure and Mechanisms -- 2.1 QLED-Electroluminescence Mechanism -- 2.2 QLED Design -- 3 QLED Applications -- 3.1 Sensors -- 3.2 Data Communications -- 3.3 QLED Displays -- 4 Conclusion -- References -- Quantum Dot Composites for Solar Cell Application -- 1 Introduction of Quantum Dot Solar Cell and Its Composites -- 2 Quantum Heterostructures -- 3 Synthesis of Quantum Dots -- 3.1 Top-Down Approach -- 3.2 Bottom-Up Approach -- 4 Designs for QD Solar Cell -- 4.1 Optical Design for QD Solar Cell -- 4.2 Electrical Design for QD Solar Cell -- 4.3 Stability Issue and Design for QD Solar Cell -- 5 Conclusion -- References -- Quantum Dots Composites in Supercapacitor Applications -- 1 Introduction -- 2 Electrochemical Supercapacitors Based on Carbon Dots -- 2.1 QDs in Electric Double-Layer Capacitors (EDLCs).
2.2 QDs in Asymmetric Capacitors (AC).
Record Nr. UNINA-9910865278203321
Thomas Sabu  
Cham : , : Springer, , 2024
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