Handbook of Magnetic Hybrid Nanoalloys and their Nanocomposites

Professor Sabu Thomas is currently Vice Chancellor of Mahatma Gandhi University. He is also a full professor of Polymer Science and Engineering at the School of Chemical Sciences of Mahatma Gandhi University, Kottayam, Kerala, India and the Founder Director and Professor of the International and Interuniversity Centre for Nanoscience and Nanotechnology. Prof. Thomas is an outstanding leader with sustained international acclaims for his work in Nanoscience, Polymer Science and Engineering, Polymer Nanocomposites, Elastomers, Polymer Blends, Interpenetrating Polymer Networks, Polymer Membranes, Green Composites and Nanocomposites, Nanomedicine and Green Nanotechnology. Dr. Thomas' ground breaking inventions in polymer nanocomposites, polymer blends, green bionanotechnological and nano-biomedical sciences, have made transformative differences in the development of new materials for automotive, space, housing and biomedical fields. In collaboration with India's premier tyre company, Apollo Tyres, Professor Thomas's group invented new high performance barrier rubber nanocomposite membranes for inner tubes and inner liners for tyres. Professor Thomas has received a number of national and international awards which include: Fellowship of the Royal Society of Chemistry, London FRSC, Distinguished Professorship from Josef Stefan Institute, Slovenia, MRSI medal, Nano Tech Medal, CRSI medal, Distinguished Faculty Award, Dr. APJ Abdul Kalam Award for Scientific Excellence - 2016, Mahatma Gandhi University- Award for Outstanding Contribution -Nov. 2016, Lifetime Achievement Award of the Malaysian Polymer Group, Indian Nano Biologists award 2017 and SukumarMaithy Award for the best polymer researcher in the country. He is in the list of most productive researchers in India and holds a position of No.5. Because of the outstanding contributions to the field of Nanoscience and Polymer Science and Engineering, Prof. Thomas has been conferred Honoris Causa (D.Sc) Doctorate by the University of South Brittany, Lorient, France and University of Lorraine, Nancy, France. Very recently, Prof. Thomas has been awarded Senior Fulbright Fellowship to visit 20 Universities in the US and most productive faculty award in the domain Materials Sciences. Very recently he was also awarded with National Education Leadership Award - 2017 for Excellence in Education. Prof. Thomas also won 6th contest of "mega-grants" in the grant competition of the Government of the Russian Federation ( Ministry of Education and Science of the Russian Federation) designed to support research projects implemented under the supervision of the world's leading scientists. He has been honoured with Faculty Research Award of India's brightest minds in the field of academic research in May 2018. Professor Thomas was awarded with Trila - Academician of The Yearin June 2018 acknowledging his contribution to tyre industry. In 2019 Professor Thomas has been selected as a member of Prestigious European Academy of Sciences. Professor Thomas has published over 800 peer reviewed research papers, reviews and book chapters. He has co-edited 127 books published by Royal Society, Wiley, Wood head, Elsevier, CRC Press, Springer, and Nova etc. He is the inventor of 15 patents. The H index of Prof. Thomas is 97 and has more than 44,339 citations. Prof. Thomas has delivered over 350 Plenary/Inaugural and Invited lectures in national/international meetings over 30 countries. Amirsadegh Rezazadeh Nochehdehi is currently an academic staff University of South Africa (UNISA). He is also PhD fellow at the Biomechanics Research Group, Department of Mechanical and Industrial Engineering (DMIE), University of South Africa (UNISA), Johannesburg, South Africa. Furthermore, he graduated from Materials and Biomaterials Research Center, Iran (MSc) with degree in Biomedical Engineering - Division of Biomaterials in 2017. He also graduated from Karaj Branch of Islamic Azad University, Iran (BSc) with degree in Materials and Metallurgy Engineering - division of Industrial Metallurgy in 2012. As a research scholar, He has worked in polymer nanocomposites for tissue regeneration applications at International and Inter-University Center for Nano-science and Nano-technology (IIUCNN) in Mahatma Gandhi University (MGU), Kerala, India, in 2018. He also worked in magneto-metallic alloy nanoparticles at Nanotechnology Research Center at University of Zululand, South Africa as visiting research in 2017. In addition, he was quality and safety engineer inspector while worked at Tehran Urban and Suburban Railway Operation Company (TUSROC) for period of 5 years. He is scientific research in Metallurgy and Materials Design, Advanced Materials, Hydrogen Storage Materials, Nano-science and Nano-technology, Nanomedicine, Nanomaterials, Nanocomposites, Magnetic Nanoparticles, Magnetic Nano-Alloys, Magnetic Hyperthermia, Biomedical Science and Engineering, bio-materials, Biomechanics, Mechanics of Tissue, and Regenerative Medicine.

Part I: Theory, Modeling and Synthesis

Chapter 1: Introduction to nanotechnology and nano-alloys



Chapter 2: Introduction to nanomedicine; nanotechnology in medicine



Chapter 3: Introduction to magnetic materials and their properties



Chapter 4: Iron and iron oxide magnetic nanoparticles (IOMNs)



Chapter 5: Synthesis of cobalt and its metallic magnetic nanoparticles (CMNs & CBMNs)



Chapter 6: Synthesis of iron-based magnetic nanocomposites (IBMNs)



Chapter 7: Synthesis of cobalt-based magnetic nanocomposites (CMNs & CBMNs)



Chapter 8: Synthesis of iron-cobalt nanoalloys (ICNAs) and their metallic composites



Chapter 9: Synthesis of core-shell magnetic nanoparticles (CS-MNs)



Chapter 10: Synthesis of magnetoelectric multiferroic materials and their composites



Chapter 11: Synthesis of magnetic carbon nanotubes and their composites



Chapter 12: Manufacturing techniques of magnetic polymer nanocomposites



Chapter 13: Vacuum based deposition techniques to synthesize magnetoelectric multiferroic materials



Chapter 14: Theory, modeling, and simulation of magnetic hybrid nanoalloys






Part II: Characterization techniques and applications



Chapter 15: Microscopy techniques




Chapter 16: X-ray scattering techniques (XST)



Chapter 17: Neutron scattering techniques (NST)



Chapter 18: Light scattering techniques (LST)



Chapter 19: Vibrating sample magnetometry (VSM)



Chapter 20: Spectroscopic techniques



Chapter 21: Rheological characterization



Chapter 22: XPS, SIMS, and nanoSIMS



Chapter 23: Thermal analysis



Chapter 24: Contact angle studies



Chapter 25: Electrical and dielectric characterization



Chapter 26: Ageing studies



Chapter 27: Diffusion and transport studies



Chapter 28: Biological characterization



Chapter 29: Industrial applications of magnetic alloy nanoparticles and their polymer nanocomposites



Chapter 30: Agricultural applications of magnetic alloy nanoparticles and their polymer nanocomposites



Chapter 31: Environmental applications of magnetic alloy nanoparticles and their polymer nanocomposites



Chapter 32: Medicinal and biological application of magnetic alloy nanoparticles and their polymer nanocomposites



Chapter 33: Life cycle analysis of specified magnetic alloy nanoparticles