Green and Sustainable Advanced Materials, Volume 1

Shakeel 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

1.3. 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

1.11. Polymer. 27

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

2.4. Chemical Characterization of Advanced Materials. 50

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

3.7. Merits and Demerits of Green Materials. 76

3.8. Recent Progress in Improvement of Material Properties. 78

3.9. Current Applications of Biocomposites and Biopolymers. 79

3.10. Futuristic Applications of Biocomposites and Biopolymers. 83

3.11. Conclusion. 85

References. 86

4. Green and Sustainable Advanced Nanomaterials. 93
Alaa K. H. Al-Khalaf and Falah H. Hussein

4.1. Introduction. 93

4.2. Applications of Natural NanoOrganic Materials. 100

4.3. Conclusion. 104

References. 105

5. Biogenic Approaches for SiO2 Nanostructures: Exploring the Sustainable Platform of Nanofabrication. 107
M. Hariram, P. Vishnukumar and S. Vivekanandhan

5.1. Introduction. 108

5.2. Synthesis of SiO2 Nanostructures. 109

5.3. Bio-Mediated Sustainable Processes for SiO2 Nanostructures. 115

5.4. Biogenic SiO2 based Doped, Functionalized and Composite Nanostructures. 125

5.5. Applications of Bio-fabricated SiO2 Nanoparticles. 129

5.6. Conclusions. 131

Acknowledgements. 132

References. 132

6. Green and Sustainable Advanced Composite Materials. 143
Yahya F. Al-Khafaji and Falah H. Hussein.

6.1. Introduction. 143

6.2. Applications of Polymers. 145

6.3. The Problems of Synthetic Polymers. 145

6.4. Why Biodegradable Polymers. 147

6.5. Biodegradable Polymers. 147

6.6. Copolymers. 147

6.7. Examples of Biodegradable Polymers is Polyesters. 148

6.8. Conclusion. 152

References. 152

7. Design and Processing Aspects of Polymer and Composite Materials. 155
Hafiz M. N. Iqbal, Muhammad Bilal and Tahir Rasheed

7.1. Introduction. 156

7.2. Design and Processing. 158

7.3. Natural Polymers and Their Applied Potentialities. 158

7.4. Synthetic Polymers and Their Applied Potentialities. 169

7.5. Materials-based Biocomposites. 173

7.6. Concluding Remarks and Future Considerations. 179

Conflict of Interest. 180

Acknowledgements. 180

References. 180

8. Seaweed-Based Binder in Wood Composites. 191
Kang Chiang Liew and Nur Syafiqah Nadiah Abdul Ghani

8.1. Introduction. 191

8.2. Methods and Techniques. 193

8.3. Results and Discussion. 195

8.4. Conclusion. 208

References. 209

9. Green and Sustainable Textile Materials Using Natural Resources. 213
Pintu Pandit, Gayatri T.N. and Saptarshi Maiti

9.1. Introduction. 213

9.2. Sustainable Colouration of Textile Materials Using Natural Plant Waste Resources. 216

9.3. Sustainable Antibacterial Finishing of Textile Materials Using Natural Waste Resources. 223

9.4. Sustainable UV Protective Textile Materials Using Waste Natural Resources. 226

9.5. Sustainable Green Flame Retardant Textile Materials Using Natural Resources. 229

9.6. Sustainable Textile Materials Using Clay as Natural Resources. 243

9.7. Sustainable Application of Aroma Finishing in Textile Materials Using Natural Resources. 250

9.8. Sustainable Mosquito Repellent Textile Materials Using Natural Resources. 253

9.9. Conclusion. 256

References. 257

10. Green Engineered Functional Textile Materials. 263
Pravin Chavan, Shahid-ul-Islam, Akbar Ali, Shakeel Ahmed and Javed Sheikh

10.1. Introduction. 263

10.2. Different Finishes Applied onto Textiles: Present Techniques vs. Green Methods. 266

10.3. Methods of Application of Microcapsules on Textiles. 273

10.4. Release Mechanism of Core Material from Microcapsules. 273

10.5. Chemistry of EO. 273

10.6. Evaluation of Mosquito Repellency. 276

10.7. Aroma Finish. 279

10.8. Conclusion. 282

References. 283

11. Advances in Bio-Nanohybrid Materials. 289
Houda Saad, Pedro Luis de Hoyos, Ezzeddine Srasra, Fatima Charrier-El Bouhtoury

11.1. Introduction. 289

11.2. Inorganic/Organic Hybrids. 290

11.3. Bio-nanohybrid Materials Based on Clay and Polyphenols. 297

11.4. Conclusions and Perspectives. 323

References. 324

12. Green and Sustainable Selenium Nanoparticles and Their Biotechnological Applications. 333
MeryamSardar and HammadAlam

12.1. Introduction. 334

12.2. Synthesis of SeNPs. 335

12.3. Biotechnological Applications of SeNPs. 341

12.4. Conclusion. 347

Acknowledgments. 348

References. 348

Index. 000