Chapter 1. Historical Landmarks in the Discovery of Chitin
Grégorio Crini
Chapter 2. Fundamentals and Applications of Chitosan
Nadia Morin-Crini, Éric Lichtfouse, Giangiacomo Torri and Grégorio Crini
Chapter 3. Biocatalytic Production of Hetero-Chitosan Oligosaccharides as Anti-Oxidants
Swati Jaiswal, Pushplata Tripathi and Sujata Sinha
Chapter 4. Enzyme Immobilization on Chitin and Chitosan-Based Supports for Potential Biotechnological Applications
Madan L. Verma, Sandeep Kumar, Anamika Das, Jatinder S. Randhawa and M. Chamundeeswari
Chapter 5. Chitin and Chitosan Derivative Membranes in Resources, Energy, Environmental and Medical Field
Tadashi Uragami
Chapter 6. Utility of Chitosan for 3D Printing and Bioprinting
Thomas J. Kean and Maya Thanou
Chapter 7. The Contribution of D-Glucosamine to cell Membrane Stability: Mechanisms and Applications in Regenerative Medicine
Yoshihiko Hayashi
Chapter 8. Manufacture Techniques of Chitosan Based Microcapsules to Enhance Functional Properties of Textiles
D. Massella, S. Giraud, J. Guan and Fabien Salaün
Dr. Grégorio Crini is researcher at University Bourgogne Franche-Comté, Besançon. His current interests focus on the design of novel polymer networks and the environmental aspects of polysaccharide chemistry. He published over 190 papers in international journals and books, and he is a highly cited researcher. The total citation of his publications is over 8700, h-index: 33.
Dr. Eric Lichtfouse is a biogeochemist at Aix Marseille University who has invented carbon-13 dating, a molecular-level method allowing to study the dynamics of organic compounds in temporal pools of complex environmental media. He is Chief Editor of the journal Environmental Chemistry Letters, and the book series Sustainable Agriculture Reviews and Environmental Chemistry for a Sustainable World.
This book reviews recent research and applications of chitin and chitosan, as natural alternatives of fossil fuel products, in green chemistry, energy, biotechnology, bioprinting, medicine, water treatment, agriculture and food science. Chitin and chitosan products are polysaccharides derived from food waste of crustaceans and fungi, and thus are cheap, abundant, sustainable, non-toxic, recyclable and biocompatible.