Processing and Characterization
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Köp båda 2 för 2973 krShakeel Ahmed is a Research Fellow at Bio/Polymers Research Laboratory, Department of Chemistry, Jamia Millia Islamia, New Delhi. He obtained his PhD in the area of biopolymers and bionanocomposites. He has published several research publications in the area of green nanomaterials and biopolymers for various applications including biomedical, packaging, sensors, and water treatment. He is an associate member of the Royal Society of Chemistry (RSC), UK and life member of the Asian Polymer Association and Society of Materials Chemistry. Chaudhery Mustansar Hussain, is an Adjunct Professor, an Academic Advisor and Director of Laboratories in the Department of Chemistry & Environmental Sciences at the New Jersey Institute of Technology (NJIT), Newark, New Jersey, USA. Dr. Hussain is the author of numerous papers in peer-reviewed journals as well as a prolific author and editor of several scientific monographs and handbooks in his research areas.
1. Green and Sustainable Advanced Materials: Overview Tanvir Arfin, Arshiya Tarannum and Kamini Sonawane. 1 1.1. History. 1 1.2. Biomaterials. 2 1.2.1. Dextran. 2 1.2.1.1. Chemical Structure. 2 1.2.1.2. Properties. 2 1.2.1.3. Applications. 3 1.2.2. Cellulose. 3 1.2.2.1. Chemical Structure. 4 1.2.2.2. Properties. 4 1.2.2.3. Application 1.2.3. Gelatine. 4 1.2.3.1. Chemical Structure. 5 1.2.3.2. Properties. 5 1.2.3.3. Application. 5 1.2.4. Alginate. 6 1.2.4.1. Chemical Structure. 6 1.2.4.2. Properties. 7 1.2.4.3. Application. 7 1.2.5. Chitin. 7 1.2.5.1. Chemical Structure. 8 1.2.5.2. Properties. 8 1.2.5.3. Application. 8 1.2.6. Chitosan. 8 1.2.6.1. Chemical Structure. 9 1.2.6.2. Properties. 9 1.2.6.3. Application. 9 1.2.7. Pollulan. 9 1.2.7.1. Chemical Structure. 9 1.2.7.2. Properties. 10 1.2.7.3. Applications. 10 1.2.8. Curdlan. 10 1.2.8.1. Chemical Structure. 10 1.2.8.2. Properties. 11 1.2.8.3. Application. 11 1.2.9. Lignin. 11 1.2.9.1. Chemical Structure. 11 1.2.9.2. Properties. 12 1.2.9.3. Application. 12 1.2.10. Xanthan Gum. 13 1.2.10.1. Chemical Structure. 13 1.2.10.2. Properties. 14 1.2.10.3. Applications. 14 1.2.11. Hydrogels. 14 1.2.11.1. Chemical Structure. 14 1.2.11.2. Properties:. 14 1.2.11.3. Application. 15 1.2.12. Xylan. 15 1.2.12.1. Chemical Structure. 16 1.2.12.2. Properties. 16 1.2.12.3. Application. 16 1.2.13. Arabic Gum. 17 1.2.13.1. Chemical Structure. 17 1.2.13.2. Properties. 17 1.2.13.3. Applications. 18 1.3. CdS. 18 1.4. Carbon Nanotube. 19 1.5. Fe Containing Nanomaterial. 20 1.6. Graphene. 20 1.7. Graphene Oxide. 22 1.8. Inulin. 23 1.9. Pectin. 24 1.10. Metal Oxide. 25 1.10.1 TiO2. 25 1.10.2 ZnO. 26 1.10.3 CeO2. 26 1.11. Polymer. 27 1.11.1. Polystyrene. 27 1.11.2. PANI. 28 1.11.3 Starch. 28 1.11.4 Dendrimer. 28 1.12 Bentonite. 29 1.13 Conclusion. 29 References. 30 2. Characterization of Green and Sustainable Advanced Materials. 35 Pintu Pandit and Gayatri T.N. 2.1. Introduction. 36 2.2. Characterization of Advanced Materials. 38 2.3. Physical Characterization of Advanced Materials. 39 2.3.1. Scanning Electron Microscopy. 41 2.3.2. Energy-dispersive X-ray Spectroscopy. 41 2.3.3. Transmission Electron Microscopy. 42 2.3.4. X-ray Diffraction. 43 2.3.5. Ultraviolet Protection. 44 2.3.6. Thermal Characterization (TGA, DTA, DSC, Cone Calorimetry). 44 2.3.6.1. Thermogravimetric Analysis. 45 2.3.6.2. Differential Thermal Analysis. 47 2.3.6.3. Differential Scanning Calorimetric Analysis. 47 2.3.6.4. Cone Calorimetry. 48 2.3.7. Characterization for Mechanical Properties of Advanced Materials. 49 2.4. Chemical Characterization of Advanced Materials. 50 2.4.1. EXAFS, XPS, and AES. 51 2.4.2. ICP-MS, ICP OES, and SIMS. 55 2.4.3. LC/GC/FTICR-MS. 57 2.4.4. NMR. 58 2.4.5. FTIR and Raman Spectroscopy. 59 2.5. Conclusions. 61 References. 62 3. Green and Sustainable Advanced Biopolymeric and Biocomposite Materials. 67 T.P. Mohan and K. Kanny 3.1. Introduction. 67 3.2. Classification of Green Materials. 68 3.3. Biopolymers. 69 3.4. Natural Fillers. 70 3.5. Natural Fibers. 72 3.6. Biocomposites. 73 3.6.1. Thermoplastic Starch Based Composites. 73 3.6.2. Polylactic Acid (PLA) Based Composites. 74 3.6.3. Cellulose Based Composites. 74 3.6.4. Plant Oil Based Composites. 75 3.6.5. Polymer-Polymer Blends-Based Composites. 76 3.7. Merits and Demerits of Green Materials. 76 3.8. Recent Progress in Improvement of Material Properties. 78 3.8.1. Hybridization. 79 3.9. Current Applications of Biocomposites and Biopolymers. 79 3.9.1. Green Fibers and their Potential in Diversified Applications. 80 3.9.2. Textile Applications. 80 3.9.3. Green Fibers for Pulp. 81 3.9.4. Green Fiber for Biocomposites, Based on Lignocelluloses. 82 3.9.5. Applications of Composites. 83 3.9.6. Particleboards. 83 3.10. Futuristi