| Description |
1 online resource (257 p.) |
| Series |
Emerging Materials and Technologies Ser |
|
Emerging Materials and Technologies Ser
|
| Contents |
Cover -- Half Title -- Series Information -- Title Page -- Copyright Page -- Table of Contents -- Editor Biographies -- Contributors -- Preface -- 1 Polymeric Biomaterials: An Overview -- 1.1 Introduction -- 1.2 Biopolymer Classification -- 1.2.1 Polyesters -- 1.2.2 Poly-(Ether Ester)s -- 1.2.3 Aliphatic Polycarbonates -- 1.2.4 Polyamides -- 1.2.5 Poly-(Ester Amide)s -- 1.2.6 Poly-(Ether Amide)s -- 1.2.7 Polyurethanes -- 1.2.8 Vinyl Polymer -- 1.2.9 Polyanhydrides -- 1.3 Chemical Characterisation of Biomaterials -- 1.3.1 FTIR Spectroscopy -- 1.3.2 Raman Spectroscopy |
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1.3.3 X-Ray Photoelectron Spectroscopy (XPS) -- 1.3.4 Scattering Techniques -- 1.3.4.1 X-Ray Diffraction (XRD) -- 1.3.4.2 Atomic Force Microscopy (AFM) -- 1.3.4.3 Scanning Electron Microscopy (SEM) -- 1.3.5 Molecular Weight Measurements -- 1.3.6 Wettability Behaviour -- 1.4 Fabrication of Biopolymers With Special Reference to Tissue Engineering and Medical Devices -- 1.4.1 Tissue Engineering (TE) -- 1.4.2 3D Scaffold Fabrication for TE -- 1.4.3 3D Scaffold Fabrication By Lithography and Printing Techniques -- 1.4.3.1 Photolithography -- 1.4.3.2 Nanoimprinting Lithography (NIL) |
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1.4.3.3 Contact Printing -- 1.4.3.4 Solid Free-Foam 3D Patterning of Polymeric Materials By Ink-Jet Printing -- 1.4.3.5 Robotic Deposition -- 1.4.4 3D-Scaffold Fabrication and Patterning By Self-Organisation -- 1.4.5 3D Scaffolds By Self-Assembly Peptides -- 1.4.6 Polymeric Biomaterial-Mediated Cell Manipulation -- 1.4.7 Cartilage -- 1.4.8 Bone -- 1.4.9 Neural Tissue Engineering (NTE) -- 1.5 Recent Polymeric Biomaterials Applications -- 1.5.1 Biophotonic Applications -- 1.5.2 Biomaterials for Implants -- 1.5.3 Piezoelectric Biomaterials -- 1.5.4 Sensors -- 1.5.5 Nanofibres for Tissue Engineering |
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1.5.6 Hybrid Materials for Bone Tissue Engineering -- 1.5.7 3D Printing -- 1.5.8 Grafting Techniques -- 1.5.9 Nerve Tissue Engineering -- 1.5.10 Biomaterials in the Bio-Water Interface -- 1.5.11 Cross-Linked Biomaterials -- 1.5.12 Optoelectronic Biomaterials -- 1.5.13 Cytocompatible Biomaterials -- 1.5.14 Electrically Conducting Polymeric Bionanocomposites (ECPBs) -- 1.5.15 Light-Guiding Biomaterials -- 1.6 Conclusion -- References -- 2 Polymeric Biomaterials in Drug-Delivery Systems -- 2.1 Introduction -- 2.2 Drug Delivery By Natural Polymers -- 2.2.1 Arginine Derivatives |
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2.2.2 Products Derived From Chitosan -- 2.2.3 Delayed-Release Cyclodextrins -- 2.3 Polymers Applied to Drug Delivery Conventionally -- 2.3.1 Systems Controlled By Diffusion -- 2.3.2 Systems That Are Activated By Solvents -- 2.3.3 Poly(2-Hydroxyethyl Methacrylate) -- 2.3.4 N-Isopropylacrylamide Polymers -- 2.3.5 Systems Made From Biodegradable Materials -- 2.3.6 (Ethylenimine) Polymers -- 2.3.7 Methacrylamide Poly(N-(2-Hydroxypropyl)) -- 2.3.8 Biodegradable and Bioabsorbable Polymers -- 2.3.9 Pharmaceutical Considerations in Drug Delivery -- 2.3.10 Delivery Through the Oral Cavity Physiology |
| Summary |
This book summarizes fabrication techniques, features, usage, and promising applications of polymeric biomaterials in diversified areas including advantageous industrial applications. Each chapter exclusively covers a distinct application associated with major classes of polymeric biomaterials |
| Notes |
Description based upon print version of record |
|
2.3.11 Polymer Films Made From Synthetic Polymers |
| Subject |
Biomedical materials.
|
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Biopolymers.
|
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Polymers in medicine.
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Biomedical materials
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Biopolymers
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Polymers in medicine
|
| Form |
Electronic book
|
| Author |
Tripathy, Divya Bajpai
|
|
Gupta, Anjali
|
|
Kuanr, Bijoy Kumar
|
| ISBN |
9781000825176 |
|
1000825175 |
|
