Wellcome

Biopolymer Grafting.

By: Thakur, Vijay KumarMaterial type: TextTextSeries: Advances in Polymers and FibersPublisher: Saint Louis : Elsevier Science, 2017Description: 1 online resource (542 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9780128104637; 0128104635Subject(s): Biopolymers | Biopolymers -- Biotechnology | TECHNOLOGY & ENGINEERING -- Engineering (General) | TECHNOLOGY & ENGINEERING -- Reference | Biopolymers | Biopolymers -- BiotechnologyGenre/Form: Electronic books.Additional physical formats: Print version:: Biopolymer Grafting: Applications.DDC classification: 620.1/9204 LOC classification: TP248.65.P62Online resources: ScienceDirect
Contents:
Front Cover; Biopolymer Grafting: Applications; Biopolymer Grafting: Applications; Copyright; Dedication ; Contents; List of Contributors; About the Editor; Preface; 1 -- Applications of Graft Copolymerization: A Revolutionary Approach ; 1. INTRODUCTION; 1.1 Graft Copolymerization; 1.2 Concept of Molecular Brushes; 1.3 Approaches for Graft Copolymerization; 1.3.1 Grafting On; 1.3.2 Grafting From; 1.3.3 Grafting Through Method; 1.3.4 Grafting by Chemical Method; 1.3.5 Grafting by Living Systems; 1.3.5.1 Enzymatic Grafting; 1.3.5.2 Plasma-Initiated Grafting; 1.3.6 Cationic Graft Copolymerization.
1.3.7 Grafting by Radiation1.3.7.1 Individual Radiation Technique; 1.3.7.2 Mutual Radiation Technique; 1.3.7.3 Advantages of Radiation Technique Over the Chemical or Conventional Methods; 1.3.7.4 Types of Radiation-Induced Grafting; 1.4 Applications; 1.4.1 Drug Delivery System; 1.4.2 Controlled Drug Delivery; 1.4.3 Enhanced Drug Delivery; 1.4.4 Targeted Drug Delivery; 1.4.5 Adsorption of Metal Ions/Flocculant Activity; 1.4.6 Water Absorption Capacity; 1.4.7 Transdermal Drug Delivery; 1.5 Conclusion; REFERENCES; 2 -- Grafting of Hydroxyapatite for Biomedical Applications ; 1. INTRODUCTION.
2. CONTROL OF SIZE AND MORPHOLOGY OF HYDROXYAPATITE CRYSTALS: ION SUBSTITUTION OF HYDROXYAPATITE3. HYDROXYAPATITE EXFOLIATED NANOPLATES BY SURFACE MODIFICATION; 4. SURFACE MODIFICATION OF HYDROXYAPATITE TO IMPROVE PROTEIN ADSORPTION; 5. ANTIBACTERIAL COATINGS FOR HYDROXYAPATITE PARTICLES; 6. SCAFFOLDS AND MEMBRANES BASED ON ELECTROSPUN NANOFIBERS CONTAINING HYDROXYAPATITE; 7. POLYMER GRAFTING ON HYDROXYAPATITE SURFACES; 8. CROSS-LINKED STRUCTURES BASED ON HYDROXYAPATITE SURFACES; 9. CONCLUSIONS; ACKNOWLEDGMENTS; REFERENCES.
3 -- Grafting of Hydrophilic Monomers Onto Cellulosic Polymers for Medical Applications 1. INTRODUCTION; 2. MODIFICATIONS OF CELLULOSIC POLYMERS; 2.1 Grafting; 2.1.1 Grafting Methods; 2.2 Commonly Used Monomers for Grafting Onto Cellulose; 2.2.1 Hydrophilic Monomers and Grafting Techniques; 3. BASIC MEDICAL APPLICATIONS OF HYDROPHILIC MONOMER GRAFTED CELLULOSIC POLYMERS; 3.1 Drug Delivery; 3.2 Hemodialysis; 3.3 Platelet Adhesion; 3.4 Antimicrobial Activity; 3.5 Others; 4. CONCLUSION; REFERENCES; FURTHER READING.
4 -- Surface Functionalization With Biopolymers via Plasma-Assisted Surface Grafting and Plasma-Induced Graft Polyme ... 1. INTRODUCTION; 2. FUNDAMENTALS OF GRAFTING TECHNIQUES; 2.1 Grafting Polymerization; 2.2 ''Grafting From", ''Grafting to", and ''Grafting Through" Approaches; 3. SURFACE MODIFICATION OF BIOMATERIALS BY GRAFTING TECHNIQUES; 3.1 Factors Influencing the Properties of Surfaces With Grafted Biopolymers; 3.2 Biocompatibility of Functionalized Surfaces; 3.3 Surface Modifications Imparting Drug Delivery Functionality.
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Print version record.

Front Cover; Biopolymer Grafting: Applications; Biopolymer Grafting: Applications; Copyright; Dedication ; Contents; List of Contributors; About the Editor; Preface; 1 -- Applications of Graft Copolymerization: A Revolutionary Approach ; 1. INTRODUCTION; 1.1 Graft Copolymerization; 1.2 Concept of Molecular Brushes; 1.3 Approaches for Graft Copolymerization; 1.3.1 Grafting On; 1.3.2 Grafting From; 1.3.3 Grafting Through Method; 1.3.4 Grafting by Chemical Method; 1.3.5 Grafting by Living Systems; 1.3.5.1 Enzymatic Grafting; 1.3.5.2 Plasma-Initiated Grafting; 1.3.6 Cationic Graft Copolymerization.

1.3.7 Grafting by Radiation1.3.7.1 Individual Radiation Technique; 1.3.7.2 Mutual Radiation Technique; 1.3.7.3 Advantages of Radiation Technique Over the Chemical or Conventional Methods; 1.3.7.4 Types of Radiation-Induced Grafting; 1.4 Applications; 1.4.1 Drug Delivery System; 1.4.2 Controlled Drug Delivery; 1.4.3 Enhanced Drug Delivery; 1.4.4 Targeted Drug Delivery; 1.4.5 Adsorption of Metal Ions/Flocculant Activity; 1.4.6 Water Absorption Capacity; 1.4.7 Transdermal Drug Delivery; 1.5 Conclusion; REFERENCES; 2 -- Grafting of Hydroxyapatite for Biomedical Applications ; 1. INTRODUCTION.

2. CONTROL OF SIZE AND MORPHOLOGY OF HYDROXYAPATITE CRYSTALS: ION SUBSTITUTION OF HYDROXYAPATITE3. HYDROXYAPATITE EXFOLIATED NANOPLATES BY SURFACE MODIFICATION; 4. SURFACE MODIFICATION OF HYDROXYAPATITE TO IMPROVE PROTEIN ADSORPTION; 5. ANTIBACTERIAL COATINGS FOR HYDROXYAPATITE PARTICLES; 6. SCAFFOLDS AND MEMBRANES BASED ON ELECTROSPUN NANOFIBERS CONTAINING HYDROXYAPATITE; 7. POLYMER GRAFTING ON HYDROXYAPATITE SURFACES; 8. CROSS-LINKED STRUCTURES BASED ON HYDROXYAPATITE SURFACES; 9. CONCLUSIONS; ACKNOWLEDGMENTS; REFERENCES.

3 -- Grafting of Hydrophilic Monomers Onto Cellulosic Polymers for Medical Applications 1. INTRODUCTION; 2. MODIFICATIONS OF CELLULOSIC POLYMERS; 2.1 Grafting; 2.1.1 Grafting Methods; 2.2 Commonly Used Monomers for Grafting Onto Cellulose; 2.2.1 Hydrophilic Monomers and Grafting Techniques; 3. BASIC MEDICAL APPLICATIONS OF HYDROPHILIC MONOMER GRAFTED CELLULOSIC POLYMERS; 3.1 Drug Delivery; 3.2 Hemodialysis; 3.3 Platelet Adhesion; 3.4 Antimicrobial Activity; 3.5 Others; 4. CONCLUSION; REFERENCES; FURTHER READING.

4 -- Surface Functionalization With Biopolymers via Plasma-Assisted Surface Grafting and Plasma-Induced Graft Polyme ... 1. INTRODUCTION; 2. FUNDAMENTALS OF GRAFTING TECHNIQUES; 2.1 Grafting Polymerization; 2.2 ''Grafting From", ''Grafting to", and ''Grafting Through" Approaches; 3. SURFACE MODIFICATION OF BIOMATERIALS BY GRAFTING TECHNIQUES; 3.1 Factors Influencing the Properties of Surfaces With Grafted Biopolymers; 3.2 Biocompatibility of Functionalized Surfaces; 3.3 Surface Modifications Imparting Drug Delivery Functionality.

4. SURFACE FUNCTIONALIZATION OF BIOMATERIALS BY PLASMA-INDUCED GRAFTING POLYMERIZATION.

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