This book provides an insight into the basic fundamentals of the biomaterials used for the biomedical applications, their development and processing techniques. Advanced materials are significantly utilized for the biomedical applications ranging from dental devices to cancer treatment owing to their higher biocompatibility and better interaction with tissues. This book covers the various topics that include basic biocompatibility phenomena, insight to materials science, class of different advanced materials as a biomaterials, development and processing techniques, design and analysis of the…mehr
This book provides an insight into the basic fundamentals of the biomaterials used for the biomedical applications, their development and processing techniques. Advanced materials are significantly utilized for the biomedical applications ranging from dental devices to cancer treatment owing to their higher biocompatibility and better interaction with tissues. This book covers the various topics that include basic biocompatibility phenomena, insight to materials science, class of different advanced materials as a biomaterials, development and processing techniques, design and analysis of the developed advanced materials, investigation of its properties and major applications. Recent information regarding the development techniques and methods for improving the properties of the advanced materials in the field of biomedical applications is highlighted in detail. The textbook offers clear explanation of the text in the chapters with self-explanatory figures and tables. It demonstrates the novel methods, opportunities and ideas for developing biomaterials in the field of biomedical applications. It also includes critical review study of the developed advanced materials for biomedical applications in a new summarized form. The inclusion of the discussions on hybrid polymer-based composites and self-healing composite materials offers a special feature in the textbook. It features a thorough overview of the simulation aspect in the biomedical applications. The book features at least 50% of its references from last three-four years' work in the field of biomaterials and biomedical. The book content adds to the redundancy in the literature work related to biomedical and biomaterials. This book is a valuable resource for academicians, students and scholars from science and engineering background having interest in biomaterials. It is helpful to the biomedical engineering group especially in countries or location where they don't have accessto the major journals.
Produktdetails
Produktdetails
Biomedical Materials for Multi-functional Applications
Dr. Vivek Sheel Rajput is presently working as a project scientist in Sophisticated Analytical Instrumentation Facility (SAIF), Panjab University, Chandigarh, under DST-STUTI Project. He has completed his Doctorate degree from the Department of Production and Industrial Engineering, Punjab Engineering College, Chandigarh, in the field of non-conventional machining processes. His research work includes the development of adaptive tool feed system for enhancing the performance of electrochemical discharge machining (ECDM). He has also worked in the field of polymer composite materials, self-healing composite materials, finite element methodology (FEM), ergonomics and advanced machining processes. He has published 28 research papers and book chapters in the reputed international journals/conferences. He is also serving as a reviewer for various prominent journals. He is a former assistant professor in the Department of Mechanical Engineering, LPU, Jalandhar, Punjab. Dr. Jasdeep Bhinder is presently working as a postdoctoral fellow in the Department of Mechanical Engineering and the Department of Traumatology and Acute Care, respectively, at Ecole de technologie supérieure and Hôpital du Sacré-Cur de, both situated in Montreal Canada. Before joining this position, he worked as a research associate in the Department of Mechanical Engineering at the Indian Institute of Technology (IIT), Gandhinagar. He completed his Doctorate degree from Department of Mechanical Engineering, IIT Ropar, Punjab, in the field of polymeric foams. His research interest includes the development of functionally graded polymeric foams, noise attenuation in automobiles, computational modeling of traumatic spinal cord injury and developing protective headgear for ice hockey and football. He served as an assistant professor in the Department of Mechanical Engineering, LPU, Jalandhar, Punjab.
Inhaltsangabe
Chapter 1: Polymers for Biomedical Application.- Chapter 2: Advanced nano-materials for biomedical applications.- Chapter 3: Metal oxide nanostructure for biomedical applications.- Chapter 4: Recent advances and perspectives on polymer-based materials for biomedical applications.- Chapter 5: Functionalized Imidazolium/Benzimidazolium derived Ionic Liquid-based Materials for Biomedical Applications.- Chapter 6: Utilization of Advanced photosensitizers in the progress of Antibacterial and anticancer Photodynamic Therapy.- Chapter 7: The evolution and emergence of 2D nanomaterial based electro-chemical and fluorescent biosensors.- Chapter 8: Biosensors.- Chapter 9: Carbon Dots in Bacterial Sensing.- Chapter 10: Study of master jet coated superni 76 with flexicords under simulated and medical-incinerator environment. etc.
Chapter 1: Polymers for Biomedical Application.- Chapter 2: Advanced nano-materials for biomedical applications.- Chapter 3: Metal oxide nanostructure for biomedical applications.- Chapter 4: Recent advances and perspectives on polymer-based materials for biomedical applications.- Chapter 5: Functionalized Imidazolium/Benzimidazolium derived Ionic Liquid-based Materials for Biomedical Applications.- Chapter 6: Utilization of Advanced photosensitizers in the progress of Antibacterial and anticancer Photodynamic Therapy.- Chapter 7: The evolution and emergence of 2D nanomaterial based electro-chemical and fluorescent biosensors.- Chapter 8: Biosensors.- Chapter 9: Carbon Dots in Bacterial Sensing.- Chapter 10: Study of master jet coated superni 76 with flexicords under simulated and medical-incinerator environment. etc.
Chapter 1: Polymers for Biomedical Application.- Chapter 2: Advanced nano-materials for biomedical applications.- Chapter 3: Metal oxide nanostructure for biomedical applications.- Chapter 4: Recent advances and perspectives on polymer-based materials for biomedical applications.- Chapter 5: Functionalized Imidazolium/Benzimidazolium derived Ionic Liquid-based Materials for Biomedical Applications.- Chapter 6: Utilization of Advanced photosensitizers in the progress of Antibacterial and anticancer Photodynamic Therapy.- Chapter 7: The evolution and emergence of 2D nanomaterial based electro-chemical and fluorescent biosensors.- Chapter 8: Biosensors.- Chapter 9: Carbon Dots in Bacterial Sensing.- Chapter 10: Study of master jet coated superni 76 with flexicords under simulated and medical-incinerator environment. etc.
Chapter 1: Polymers for Biomedical Application.- Chapter 2: Advanced nano-materials for biomedical applications.- Chapter 3: Metal oxide nanostructure for biomedical applications.- Chapter 4: Recent advances and perspectives on polymer-based materials for biomedical applications.- Chapter 5: Functionalized Imidazolium/Benzimidazolium derived Ionic Liquid-based Materials for Biomedical Applications.- Chapter 6: Utilization of Advanced photosensitizers in the progress of Antibacterial and anticancer Photodynamic Therapy.- Chapter 7: The evolution and emergence of 2D nanomaterial based electro-chemical and fluorescent biosensors.- Chapter 8: Biosensors.- Chapter 9: Carbon Dots in Bacterial Sensing.- Chapter 10: Study of master jet coated superni 76 with flexicords under simulated and medical-incinerator environment. etc.
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