Advanced Materials in Bioimplants: Processing and Applications thoroughly reviews the core concepts, processing routes, and applications of nanomaterials in bioimplants. Divided into three sections, this book systematically guides the reader through each stage of bioimplant materials development, helping them make informed decisions when selecting appropriate materials for their work. A range of implant nanomaterials is considered including smart, piezoelectric, magnetostrictive, and light nanomaterials. Various fabrication and synthesis techniques are detailed, as well as key applications as antiviral smart nanocoatings, loadbearing, flexible, wear-resistant nanomaterials, and futuristic bioimplants. This book acts as a reference to the researchers and practitioners in the fields of nanotechnology, biomedical engineering, and biosciences.
Table of Contents
Section 1: Advanced nanomaterials for biomedical implants1. Introduction to the implant nano-scaled advanced materials
2. Nanotechnology-based shape memory materials for bioimplants
3. Nanotechnology based Piezoelectric Materials for Biomedical Implants
4. Nanotechnology based magnetostrictive Materials for bioimplants
5. Nanotechnology-based light materials for bioimplants
6. Recent Advances in Materials for Bioimplant with emphasis on Novel Research Applications
Section 2: Processing routes, structure, and properties of advanced biomedical implants
7. Biocompatible nano-scaled smart materials: fabrication, structure, and properties
8. Biocompatible nano-scaled piezoelectric and dielectric materials: fabrication, structure, and properties
9. Synthesis techniques of smart coatings
10. Biocompatible nano-scaled light materials: fabrication, structure, and properties
11. Additive Manufacturing and Criteria to Fabricate Bioinks
12. Light materials for bioimplants
Section 3: Applications of bioimplants
13. Nanomaterials in hemostasis: modulating pathways and mechanisms with bioactive materials
14. Advanced antiviral nano-smart coatings: case studies
15. Advanced bioimplants nanomaterials for load bearing applications: case studies
16. Advanced bioimplants nanomaterials for flexible applications: case studies
17. The Role of Nanotechnology-Based Implants in Musculoskeletal System and Oncology
18. Nano-scale Computational Modelling Approaches, Limitations and Future Opportunities and Trends
Authors
Ajit Behera Assistant Professor, Metallurgical and Materials Engineering Department, National Institute of Technology, Rourkela, Odisha, India. Dr. Ajit Behera is currently working as an Assistant Professor in the Department of Metallurgical & Materials Engineering at the National Institute of Technology, Rourkela. He completed his PhD from IIT, Kharagpur, in 2016. He received the National "IEI Young Engineer Award� in 2022, "Yuva Rattan Award� in 2020, "C.V. Raman Award� in 2019, and "young faculty award� in 2017. He has published more than 202 publications including books, book chapters, and journals. Five PhD students were awarded under his supervision, and more than 10 PhD students from his institute/outside the institute areworking on different research projects with him. He has successfully completed 25 industrial/research projects and organized 12 industrial-academia collaborative conferences. Jayanta Kumar Patra Associate Professor, Research Institute of Integrative Life Sciences, Dongguk University, South Korea. Prof. Dr. Jayanta Kumar Patra, M.Sc., Ph.D., P.D.F, is currently working as an Associate Professor
at Dongguk University, Republic of Korea. He holds about 14 years of research and teaching experience in the fields of food, pharmacology, and nano-biotechnology. To his credit, he has published more than 200 papers in various national and international peer-reviewed journals and around 50 book chapters
in different edited books. Dr. Patra has also authored 22 books in various academic publications.
