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This book merges the two most important trends in biomaterials: functionalization and renewable chemistry. It covers a variety of biopolymers and various approaches for the transformation of these biopolymers into functional units.
This book merges the two most important trends in biomaterials: functionalization and renewable chemistry. It covers a variety of biopolymers and various approaches for the transformation of these biopolymers into functional units.
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Autorenporträt
Assist. Prof. Tamilselvan Mohan obtained his Master of Science in Chemistry in 2006 from the Kanchi Mamunivar Centre for Post Graduate Studies (KMCPGS), Pondicherry, India. Since July 2017, has has been in the group of Prof. Stana Kleinschek, University of Maribor, where he focuses mainly on the development of various types of functional materials for flame-retardant, paper conservation and tissue engineering applications. Prof. Karin Stana Kleinschek obtained her PhD degree from the Institute of Physical Chemistry of the University of Graz, Austria. Her field of expertise is surface modification and characterization of polysaccharides and its usability in biomedical applications. She works as Full Professor at the Faculty of Mechanical Engineering of the University of Maribor (UM), where she teaches various courses on Polymer Chemistry, Surface Characterization of Polymeric Materials and Textile Chemistry.
Inhaltsangabe
PART I DEFINITIONS, SOURCES, STRUCTURE AND PROPERTIES OF BIOPOLYMERS AND BIOMATERIALS
Chapter 1: Definitions, types of biopolymers and biomaterials Chapter 2: Biopolymers and their derivatives introduction, chemical, functional and structural classification Chapter 3: Biopolymer isolation and preparation Chapter 4: Biopolymer supramolecular structure and functions
PART II CHARACTERIZATION OF BIOMATERIALS
Chapter 5: Methods for characterization of morphological properties of biomaterials Chapter 6: Methods for characterization of structural properties of biomaterials Chapter 7: Methods for analysing the chemical composition of biomaterials Chapter 8: Methods for characterization of dielectric and thermal properties of biomaterials Chapter 9: Methods for characterization of surface properties and solid-liquid interaction studies of biomaterials Chapter 10: Methods for analysing the biological and biomedical properties of biomaterials
PART III BIOPOLYMER ULTRATHIN (TWO-DIMENSIONAL) FILMS
Chapter 10: Biopolymer ultrathin films: recent trends and challenges Chapter 11: Biopolymer-based flat thin films preparation, characterization and application Chapter 12: Structuring and characterization of biopolymer-based thin films Chapter 13: Application of biopolymer thin films in biomedical applications a. In drug-delivery b. Cell growth c. Biological macromolecule (e.g. proteins, DNA, antibody) interactions
PART IV BIOPOLYMER-BASED NANOMATERIALS: CHALLENGES IN PREPARATION, CHARACTERIZATION AND APPLICATIONS
Chapter 14: Current synthesis methods, characterization and application of cellulose nanocrystals Chapter 15: Preparation, characterization and biomedical application of Nano fibrillated cellulose Chapter 16: Polysaccharide-based nanofibers synthesis, characterization and application in tissue engineering and regenerative medicine Chapter 17: Polysaccharide nanoparticles different methods of synthesis and their interaction with cells and tissues
PART V POLYSACCHARIDE-BASED SCAFFOLDS: DESIGN, FABRICATION AND APPLICATION
Chapter 18: Methods and challenges in the preparation of scaffolds for tissue engineering application Chapter 19: Solvent-casting approach for design of scaffold and their potential application Chapter 20: Freeze-dried aerogel/foams for tissue engineering application Chapter 21: Design and characterization of electro spun scaffolds for biomedical application Chapter 22: Polysaccharide-beads preparation, characterization and application in tissue engineering Chapter 23: recent advances in 3d printing in the design and application of cellulose-based polysaccharide scaffolds a. In skin tissue engineering b. In vascular tissue engineering c. In bone tissue engineering d. In cartilage tissue engineering
PART I DEFINITIONS, SOURCES, STRUCTURE AND PROPERTIES OF BIOPOLYMERS AND BIOMATERIALS
Chapter 1: Definitions, types of biopolymers and biomaterials Chapter 2: Biopolymers and their derivatives introduction, chemical, functional and structural classification Chapter 3: Biopolymer isolation and preparation Chapter 4: Biopolymer supramolecular structure and functions
PART II CHARACTERIZATION OF BIOMATERIALS
Chapter 5: Methods for characterization of morphological properties of biomaterials Chapter 6: Methods for characterization of structural properties of biomaterials Chapter 7: Methods for analysing the chemical composition of biomaterials Chapter 8: Methods for characterization of dielectric and thermal properties of biomaterials Chapter 9: Methods for characterization of surface properties and solid-liquid interaction studies of biomaterials Chapter 10: Methods for analysing the biological and biomedical properties of biomaterials
PART III BIOPOLYMER ULTRATHIN (TWO-DIMENSIONAL) FILMS
Chapter 10: Biopolymer ultrathin films: recent trends and challenges Chapter 11: Biopolymer-based flat thin films preparation, characterization and application Chapter 12: Structuring and characterization of biopolymer-based thin films Chapter 13: Application of biopolymer thin films in biomedical applications a. In drug-delivery b. Cell growth c. Biological macromolecule (e.g. proteins, DNA, antibody) interactions
PART IV BIOPOLYMER-BASED NANOMATERIALS: CHALLENGES IN PREPARATION, CHARACTERIZATION AND APPLICATIONS
Chapter 14: Current synthesis methods, characterization and application of cellulose nanocrystals Chapter 15: Preparation, characterization and biomedical application of Nano fibrillated cellulose Chapter 16: Polysaccharide-based nanofibers synthesis, characterization and application in tissue engineering and regenerative medicine Chapter 17: Polysaccharide nanoparticles different methods of synthesis and their interaction with cells and tissues
PART V POLYSACCHARIDE-BASED SCAFFOLDS: DESIGN, FABRICATION AND APPLICATION
Chapter 18: Methods and challenges in the preparation of scaffolds for tissue engineering application Chapter 19: Solvent-casting approach for design of scaffold and their potential application Chapter 20: Freeze-dried aerogel/foams for tissue engineering application Chapter 21: Design and characterization of electro spun scaffolds for biomedical application Chapter 22: Polysaccharide-beads preparation, characterization and application in tissue engineering Chapter 23: recent advances in 3d printing in the design and application of cellulose-based polysaccharide scaffolds a. In skin tissue engineering b. In vascular tissue engineering c. In bone tissue engineering d. In cartilage tissue engineering
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