Electrospinning, an electro-hydrodynamic process, is a versatile and promising platform technology for the production of nanofibrous materials for tissue engineering and biomedical applications. Electrospun Materials for Tissue Engineering and Biomedical Applications, examines the rapid development of electrospun materials for use in tissue engineering and biomedical applications. With a strong focus on fundamental materials science and engineering, this book also looks at successful technology transfers to the biomedical industry, highlighting biomedical products already on the market as…mehr
Electrospinning, an electro-hydrodynamic process, is a versatile and promising platform technology for the production of nanofibrous materials for tissue engineering and biomedical applications.
Electrospun Materials for Tissue Engineering and Biomedical Applications, examines the rapid development of electrospun materials for use in tissue engineering and biomedical applications. With a strong focus on fundamental materials science and engineering, this book also looks at successful technology transfers to the biomedical industry, highlighting biomedical products already on the market as well as the requirements to successfully commercialize electrospun materials for potential use in tissue engineering and biomedical areas.
This book is a valuable resource for materials and biomedical scientists and engineers wishing to broaden their knowledge on the tissue engineering and biomedical applications of electrospun fibrous materials.
Prof. Tamer Uyar obtained his Ph.D. degree from North Carolina State University, Fiber & Polymer Science program in 2005. Currently, he is an Associate Professor at Institute of Materials Science & Nanotechnology (UNAM) at Bilkent University, Ankara, Turkey. Prof. Uyar is very active in the field of Electrospinning of nanofiber by publishing over 100 peer-reviewed journal papers in this field with the interest of potential applications in Environmental/Filtration, Healthcare, Catalysis, Sensors, Food and Active Food Packaging, Energy, NanoTextiles and NanoAgriculture. Prof. Uyar is Founding Editor of the journal Electrospinning (by De Gruyter Open) and currently he is also serving in Editorial Board Member for Scientific Reports (by Springer Nature), Editorial Board of Journal of Nanomaterials (by Hindawi) and Editorial Advisory Board of e-Polymers (by De Gruyter). Prof. Uyar is the Vice-Chair of COST Action MP1206 for Electrospinning of nanofibers. As a young scientist, Prof. Uya
r is the recipient of several prestigious International awards/fellowships including 2016 International Cyclodextrin József Szejtli Award and 2012 Fiber Society Distinguished Achievement Award and 2010 Marie Curie International Reintegration Grant (IRG) Fellowship. He also received numerous National awards given only under 40 years of age including 2014 TÜBITAK Incentive Award, 2012 Turkish Academy of Sciences Outstanding Young Scientists Award (GEBIP), 2010 METU Parlar Foundation Research Incentive Award and 2009 Outstanding Young Scientist Award by FABED.
Inhaltsangabe
Part 1: Introduction to Electrospinning for Biomedical and Tissue Engineering Applications 1. Electrospinning: A versatile processing technology for producing nanofibrous materials for biomedical and tissue engineering applications 2. General requirements of electrospun materials for tissue engineering; set-ups and strategy for successful electrospinning in laboratory and industry 3. Biomedical Industrial Applications of Electrospinning, Innovations and Products 4. Integrating 3D and rapid printing technologies for electrospun materials 5. Melt electrospinning in tissue engineering 6. In vivo safety evaluations of Electrospun nanofibers for Biomedical applications
Part 2: Specific Biomedical and Tissue Engineering Application Areas of Electrospinning 7. Electrospun Systems for Drug Delivery 8. Electrospun nanofibrous materials for wound healing applications 9. Electrospun Biomaterials for Dermal Regeneration 10. Electrospun Materials for Bone and Tendon/Ligament Tissue Engineering 11. Electrospun Scaffolds for Vascular Tissue Engineering 12. Electrospun scaffolds for cardiac tissue engineering 13. Electrospun scaffolds for neural tissue engineering 14. Coaxial electrospun nanofibers for nanomedicine 15. Electrospun based systems in cancer therapy 16. Electrospun Nanofibers for Regenerative Dentistry 17. Electrospun Nanofibrous Materials as Biosensors and sensors for diagnostics
Part 1: Introduction to Electrospinning for Biomedical and Tissue Engineering Applications 1. Electrospinning: A versatile processing technology for producing nanofibrous materials for biomedical and tissue engineering applications 2. General requirements of electrospun materials for tissue engineering; set-ups and strategy for successful electrospinning in laboratory and industry 3. Biomedical Industrial Applications of Electrospinning, Innovations and Products 4. Integrating 3D and rapid printing technologies for electrospun materials 5. Melt electrospinning in tissue engineering 6. In vivo safety evaluations of Electrospun nanofibers for Biomedical applications
Part 2: Specific Biomedical and Tissue Engineering Application Areas of Electrospinning 7. Electrospun Systems for Drug Delivery 8. Electrospun nanofibrous materials for wound healing applications 9. Electrospun Biomaterials for Dermal Regeneration 10. Electrospun Materials for Bone and Tendon/Ligament Tissue Engineering 11. Electrospun Scaffolds for Vascular Tissue Engineering 12. Electrospun scaffolds for cardiac tissue engineering 13. Electrospun scaffolds for neural tissue engineering 14. Coaxial electrospun nanofibers for nanomedicine 15. Electrospun based systems in cancer therapy 16. Electrospun Nanofibers for Regenerative Dentistry 17. Electrospun Nanofibrous Materials as Biosensors and sensors for diagnostics
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