Develop sustainable nanomaterial applications with this cutting-edge introduction
Nanomaterials are one of the most important areas of scientific and industrial development, with impacts in virtually every area touched by materials science. Their unique properties have particularly widespread applications in biomedical and environmental research, where they contribute to sustainable and cost-effective processes. The synthesis of nanomaterials, however, can itself be costly and environmentally damaging; green or sustainable synthesis of nanomaterials is an essential development if the full potential of these transformative materials is to be realized.
Green Synthesis of Nanomaterials: Biological and Environmental Applications presents a cutting-edge overview of green synthesis processes and their applications. It takes a comparative approach in order to emphasize the advantages of green-synthesized nanomaterials over their chemically synthesized counterparts. The result is a vital contribution to biomedical and environmental research and product development.
Green Synthesis of Nanomaterials: Biological and Environmental Applications readers will also find:
The latest research compiled by a team of established scholars
Detailed discussion of applications in fields including anticancer and antibacterial research and environmental remediation, among many others
Coverage of topics including magnetotactic bacteria, green nanomaterials in the textile industry, and many others
Green Synthesis of Nanomaterials: Biological and Environmental Applications is ideal for researchers and scientists in chemistry, biology, materials science, or nanotechnology, as well as for technologists in any industry that can benefit from green-synthesized nanomaterials.
Edited by:
Archana Chakravarty (Jamia Millia Islamia; Central University New Delhi India),
Preeti Singh (Institute of Chemical Technology,
Mumbai,
India),
Saiqa Ikram (Jamia Millia Islamia; Central University,
New Delhi,
India),
R. N. Yadava (Purnea University Bihar,
Bihar,
India)
Imprint: John Wiley & Sons Inc
Country of Publication: United States
Weight: 803g
ISBN: 9781119900900
ISBN 10: 1119900905
Pages: 400
Publication Date: 13 February 2024
Audience:
Professional and scholarly
,
Undergraduate
Format: Hardback
Publisher's Status: Active
List of Contributors xv Preface xxi 1 Introduction to Advanced and Sustainable Green Nanomaterial 1 Aayushi Chanderiya, Atish Roy, and Ratnesh Das 1.1 Introduction 1 1.2 Synthesis Methods of Nanomaterials 4 1.3 Green Synthesis 5 1.4 Biosynthesis of Nanoparticles from Plants 6 1.5 Characterization of Nanomaterials 7 1.6 Environmental and Health Concerns 9 1.7 Application 9 1.8 Future Scope 15 1.9 Ongoing Challenges 16 1.10 Conclusion 16 2 Medicinal Plant-Mediated Nanomaterials 22 Abu Taha, Nowsheenah Farooq, and Athar Adil Hashmi 2.1 Introduction 23 2.2 Synthesis of Gold Nanoparticles 24 2.3 Synthesis of Silver Nanoparticles 28 2.4 Synthesis of Zinc Oxide Nanoparticles 31 2.5 Synthesis of Titanium Oxide Nanoparticles 34 2.6 Synthesis of Iron Oxide Nanoparticles 35 2.7 Conclusion and Future Perspective 37 3 Microorganism-Based Synthesis of Nanomaterials and Their Applications 46 Khairatun Najwa Mohd Amin, Rohana Abu, Sharifah Fathiyah Sy Mohamad, and Afkar Rabbani Hidayatullah Hipeni 3.1 Introduction 47 3.2 Microorganism 49 3.3 Development of Microorganism-Based Synthesis of Nanomaterial 50 3.4 Mechanism of Microorganism-Based Synthesis of Nanomaterial 55 3.5 Application of Microorganism-Based Synthesized Nanomaterial 60 3.6 Conclusion and Perspective 61 4 Biopolymer-Based Nanomaterials and Their Applications 71 Baranya Murugan, Is Fatimah, MA Motalib Hossain, and Suresh Sagadevan 4.1 Introduction 72 4.2 Classification of Biopolymers 73 4.3 Synthesis Methods of Biopolymers 75 4.4 Characterization Methods of Biopolymers 75 4.5 Nanotechnology-Based Applications of Biopolymers 77 4.6 Conclusions 82 5 Photoinduced Synthesis of Nanoparticles 89 Nowsheenah Farooq, Abu Taha, and Athar Adil Hashmi 5.1 Introduction 90 5.2 Methods of Synthesis 92 5.3 Photochemical Synthesis of Nanomaterials 94 5.4 Photochemical Synthesis of UO2 Nanoparticles in Aqueous Solutions 100 5.5 Photochemical Synthesis of ZnO Nanoparticles 101 5.6 Conclusion 102 6 Green Nanomaterials in Textile Industry 114 Indu Kumari, Sarabjeet Kaur, and Ratnesh Das 6.1 Introduction 115 6.2 Nanomaterials Consistent with Textiles 116 6.3 Techniques Related to Textile Functionalization 117 6.4 Utilization of Nanotechnology in Textile Industry 120 6.5 Nanomaterials with Different Functional Textiles 121 6.6 Conclusion 125 7 Drug-delivery, Antimicrobial, Anticancerous Applications of Green Synthesized Nanomaterials 131 Sivasubramanian Murugappan, Monika Pebam, Sri Amruthaa Sankaranarayanan, and Aravind Kumar Rengan 7.1 Introduction 132 7.2 Gold Nanoparticles 133 7.3 Silver Nanoparticles 137 7.4 Zinc Oxide Nanoparticles 141 7.5 Titanium Dioxide Nanoparticles 147 7.6 Iron Oxide Nanoparticles 150 7.7 Carbon Based Nanomaterials 153 7.8 Conclusion and Future Directions 156 8 How Eco-friendly Nanomaterials are Effective for the Sustainability of the Environment 169 Manoj Kumar, Preeti Sharma, Archana Chakravarty, Sikandar Paswan, and Deepak Kumar Bhartiya 8.1 Introduction 170 8.2 Eco-friendly Nanomaterials 172 8.3 Green Nanomaterial for Removal of Water Contamination 175 8.4 Green Nanomaterial for Removal of Soil Pollution 178 8.5 Conclusion 179 9 Magnetotactic Bacteria-Synthesized Nanoparticles and Their Applications 187 Juhi Gupta and Athar Adil Hashmi 9.1 Introduction 188 9.2 Characteristics of Magnetosomes (MNPs)—Biogenic NPs and Their Physico-Chemical Properties 190 9.3 Synthesis of Magnetosomes 193 9.4 MNPs Relative to Chemically Synthesized NPs 194 9.5 Applications of Magnetosomes 197 9.6 Conclusion and Future Perspective 200 10 Biofabrication of Nanoparticles in Wound-Healing Materials 208 Nishat Khan, Isha Arora, Amrish Chandra, and Seema Garg 10.1 Introduction 209 10.2 Nanoparticles 215 10.3 Nanocomposites or Composite Nanoparticles 216 10.4 Coatings and Scaffolds 218 10.5 Green Synthesis of Silver Nanoparticles 220 10.6 Conclusion 225 11 Cellulosic Nanomaterials for Remediation of Greenhouse Effect 228 Athanasia Amanda Septevani, Melati Septiyanti, Annisa Rifathin, David Natanael Vicarneltor, Yulianti Sampora, Benni F. Ramadhoni, and Sudiyarmanto 11.1 Introduction 229 11.2 Cellulosic Nanomaterials in Automotive Application 230 11.3 Cellulosic Nanomaterials in the Application of Thermal Insulation 233 11.4 Cellulosic Nanomaterial for Gas Capture and Separation 236 11.5 Conclusion and Future Prospective 239 12 Ecofriendly Nanomaterials for Wastewater Treatment 248 Neeru Dabas, Shivani Chaudhary, Ritu Rani Chaudhary, and Gautam Jaiswar 12.1 Introduction 249 12.2 Application of Ecofriendly Nanomaterials 249 12.3 Inorganic Nanoparticles 251 12.4 Synthesis of Green Nanomaterials 252 12.5 Nanocellulose Nanomaterials for Water Treatment 253 12.6 Graphene-CNT Hybrid/Graphene Hybrids (GO and Biopolymer) 254 12.7 Green Nanocomposite 256 12.8 Ecofriendly Nanomaterials from Agricultural Wastes 259 12.9 Conclusion 264 13 Bio-nanomaterials from Agricultural Waste and Its Applications 270 Shaily, Adnan Shahzaib, Fahmina Zafar, and Nahid Nishat 13.1 Introduction 271 13.2 Lignin 272 13.4 Vegetable/Fruit Waste 284 13.5 Conclusion 286 14 Peptide-Assisted Synthesis of Nanoparticles and Their Applications 292 Vikas Kumar 14.1 Introduction 292 14.2 Synthesis of Metal Nanoparticles by Using Peptides as Template 295 14.3 Characterization of Peptide-MNP Hybrids 295 14.4 Biological and Environmental Applications of Peptide Nanoparticles 301 14.5 Conclusion 308 15 Pharmacotherapy Approach of Peptide-Assisted Nanoparticle 317 Shivani A. Kumar, Rimon Ranjit Das, and Surbhi Malik 15.1 Introduction 317 15.2 The Peptide-NP Conjugation 319 15.3 Targeted Drug Delivery 321 15.4 Pathogenic Protein Interaction Inhibition 323 15.5 Molecular Imaging 326 15.6 Liquid Biopsy 329 15.7 Summary and Outlook 331 16 Unleashing the Potential of Green-Synthesized Nanoparticles for Effective Biomedical Application 343 G.K. Prashanth, Manoj Gadewar, M. Mutthuraju, Srilatha Rao, A.S. Sowmyashree, K. Shwetha, Mithun Kumar Ghosh, B.R. Malini, and Vinita Chaturvedi 16.1 Introduction 344 16.2 Synthesis and Characterization of NPs 345 16.3 GNPs as Anti-Carcinogens 346 16.4 Green NPs as Anti-Microbials 348 16.5 Applications of Green NPs in Another Drug Delivery 354 16.6 Conclusion 354 Acknowledgments 356 References 356 Index 369
Archana Chakravarty, PhD, is a UGC-Dr. D.S. Kothari Postdoctoral Fellow in the Department of Chemistry, Faculty of Natural Sciences, Jamia Millia Islamia University, India. Her research focuses on green synthesis of nanomaterials and their biomedical and environmental applications. Dr. Preeti Singh is a Postdoctoral researcher working in the Department of Fibre & Textile Technology, Institute of Chemical Technology, Mumbai, and Indian Institute of Technology, Delhi. Her research focuses on photocatalysis, nanomaterials, sensors, and self-sanitized fabric material. Saiqa Ikram, PhD, is Professor in the Department of Chemistry, Faculty of Natural Sciences, Jamia Millia Islamia University, India. Her research concerns polymer science and technology, nanomaterials, and many other related subjects. R. N. Yadava, PhD, is Vice Chancellor at Purnea University, Bihar, India. He has researched and published extensively in the chemistry of natural products, medicinal chemistry, and alleopathy.
