Advances in Biomedical Polymers and Composites

1. Introduction to Biomedical Polymer And Composites 2. Foundations of biomedical composite science 3. Biopolymer-based composites for drug delivery applications- A scientometric analysis 4.Characteristics and characterization techniques of bacterial cellulose for biomedical applications 5. Engineering scaffolds for tissue engineering and regenerative medicine 6. Recent Trends in Polymeric Composites and Blends for 3D Printing and Bioprinting 7. Polymers for additive manufacturing and 4D-printing 8. Bioprinting of Hydrogels for Tissue Engineering and Drug Screening Applications 9. Smart polymers for biomedical applications 10. Chitosan-based nanoparticles for ocular drug delivery 11. Conducting polymers for potential biomedical applications 12. Introduction to biomedical shape memory polymers 13. Contemporary rapid prototyping processes in biomedical applications 14. Self-assembled polymer nanocomposites in biomedical applications 15. Thermoresponsive polymers and polymeric composites 16. Ceramic particle dispersed polymer composites 17. Electrospinning for biomedical applications 18. Advances in Biomedical Composites as Drug Delivery Systems 19. Natural gums of plant and microbial origin for tissue engineering applications 20. Polymers and Nanomaterials as gene delivery systems 21. Essential oil-loaded biopolymeric films for wound healing applications 22. Biomedical Antifouling Polymer Nanocomposites 23. Antiviral polymer materials 24. Biosensor: Fundamental, Biomolecular Component and Applications 25. Microbial cell encapsulation 26. Carbon Nanotubes Based Composites Materials for Biomedical Applications: An Overview 27. Cryogels as Smart Polymers in Biomedical Applications 28. Naturally Derived Bioceramics - Polymer Composite for Biomedical Applications 29. Molecularly imprinted polymers for biomedical applications 30. Natural biopolymer scaffolds for bacteriophage delivery in the medical field

Dr. Pal pursued his graduation in Pharmacy from the University of Delhi, New Delhi, India in the year 2002, followed by post-graduation in Biomedical Engineering from Jadavpur University, Kolkata, India in the year 2004. Later, he did his Ph.D. in Materials Science from the Indian Institute of Technology, Kharagpur, India, in the year 2006. Subsequently, he joined Ryerson University, Toronto, Canada as a post-doctoral fellow in the year 2007. During his tenure at Ryerson University, he served as Vice-Chair (Elect), HQPA, AFMNet Network of Excellence, Canada. He joined the National Institute of Technology, Rourkela, India in the year 2009 as an Assistant Professor in Biomedical Engineering. He is currently the Professor-in-Charge of Medical Electronics and Instrumentation Laboratory in the Department of Biotechnology and Medical Engineering, National Institute of Technology, Rourkela, India. His major research interests revolve around Biomedical Signal Processing and Biomedical Equipment Design. He is also working in the fields of soft materials and controlled drug delivery. He has published more than 100 publications in SCI cited journals of high repute, Book Chapters, Edited Books, and papers in peer-reviewed conferences. He is a very well-cited researcher having more than 2500 citations. Sarika Verma is currently working as Principal Scientist at Materials for Radiation Shielding and Cement free Concrete division CSIR-Advanced Materials and Processes Research Institute (AMPRI), Bhopal - 462026, MP, India. She has more than fifteen years of diverse experience in Research and Teaching in CSIR & other academics Institutes such as CSIR-AMPRI, Bhopal Govt. of India, respectively. She was awarded a Ph. Din Chemical Sciences from BarakatullahUniversity, India. Thereafter, she worked in different capacities like a research scientist at Technische universitad, Darmstadt, Germany, Pool Scientist (CSIR-HRDG, New Delhi), and Women Scientist (DST). She is the recipient of various prestigious awards like young scientist,women scientist etc. She has around 20 patents filed. Over the years, she has been intensively engaged in multiple R & D to design and develop advanced materials useful for different broad application spectrums like cement-free materials, Radiation shielding materials, polymeric composites, biomedical and energy materials via novel techniques. She has experience in transferring the know-how technology to industries likeM/S HCL, M/S Assurays, etc. Dr Pallab Datta is Assistant Professor at the Department of Pharmaceutics, National Institute of Pharmaceutical Education and Research, Kolkata, India. Dr. Ananya Barui is a scientist working at the Centre for Healthcare Science and Technology, Indian Institute of Engineering Science and Technology, Shibpur, Howrah, India. Dr. S.A.R. Hashmi is Chief Scientist and Head of the Integrated Approach for Design & Product Development Division, CSIR-Advanced Materials and Processes Research Institute (AMPRI), India. Dr. Avanish Kumar Srivastava is the Director, CSIR – Advanced Materials and Processes Research Institute, Bhopal. He received his master’s degree in physics from the Indian Institute of Technology (UOR), Roorkee, MTech. in Materials Science from the Indian Institute of Technology, Kanpur, and doctorate in metallurgy from the Indian Institute of Science, Bengaluru. He serves as an expert for nanoscale measurements and instrumentation at ISO and BIS. He was instrumental in establishing the high-resolution electron microscopy & spectroscopy facilities at CSIR-NPL New Delhi and AMPRI Bhopal. His prolific research on the growth of engineering materials and understanding on nucleation-growth, phase transformations, microstructures & defects is outstanding and known by his peers world-wide. His in-situ annealing experiments under electron beam on the interfacial diffusion of aluminium into amorphous Si, has enlightened the dynamic process of Si-crystallization in reality. He has reported two crystal structures in polymer-tungsten oxide nanostructures and also elaborated concept of irrational twinning of cubic crystals leading to quasiperiodic structures. His work on DNA: CNT coupling is exemplary in bio-technology. Dr. Srivastava has published 250 articles in peer reviewed journals and ten patents. He serves as Chief Editor of the journal “Applied Innovative Research”. He has published a Book entitled, Oxide Nanostructures: Growth, Microstructures and Properties. He is instrumental in transferring seven technologies including non-toxic radiation shielding tiles, cement free concrete, hybrid green composites, electricity free water filter, bamboo composites, and surface plasma resonance substrate for Raman spectroscopy, to leading companies. Dr. Srivastava is President of the Electron Microscope Society of India. He is eminent member of governing council of TIFAC, Govt. of India. As a coordinator of Young Scientists’ Conclave under India International Science Festival, IISF – 2016, he was able to organize large number of plenary lectures, oral & poster presentations and demonstrations / presentations by Start-ups, etc.