- English
- ePUB (mobile friendly)
- Available on iOS & Android
Biomaterial Fabrication Techniques
About This Book
This reference is a guide to biomaterial fabrication techniques. The book comprises ten chapters introducing the reader to a range of biomaterial synthesis while highlighting biomedical applications. Each chapter presents a review of the topic followed by updated information about relevant core and applied concepts in an easy to understand format. The first two chapters present vital information about biomaterial components, such as polymer nanocomposites and scaffolds, and the strategies used for their fabrication. The proceeding chapters explain the principles of the most widely used fabrication techniques, and their application in detail. These include freeze drying, electrospinning, 3D printing, multiphoton lithography, particulate leaching, supramolecular self assembly, solvent casting and melt molding. The book is an essential primer on biomaterial synthesis for students and early career researchers in the field of biomedical engineering, applied chemistry and tissue engineering.
Frequently asked questions
Information
Table of contents
- Welcome
- Table of Content
- Title
- BENTHAM SCIENCE PUBLISHERS LTD.
- FOREWORD
- PREFACE
- List of Contributors
- Introduction to Biomaterials and Scaffolds for Tissue Engineering
- Biocomposites for Tissue Engineering
- Freeze Drying: A Versatile Technique for Fabrication of Porous Biomaterials
- Centrifugal and Solution Blow Spinning Techniques in Tissue Engineering
- Electrospun Nanofibers Scaffolds: Fabrication, Characterization and Biomedical Applications
- 3D Printed Biomaterials and their Scaffolds for Biomedical Engineering
- Fabrication of Photosensitive Polymers-based Biomaterials through Multiphoton Lithography
- Particulate Leaching (Salt Leaching) Technique for Fabrication of Biomaterials
- Principles of Supra Molecular Self Assembly and Use of Fiber mesh Scaffolds in the Fabrication of Biomaterials
- Solvent Casting and Melt Molding Techniques for Fabrication of Biomaterials