Starch-Based Polymeric Materials and Nanocomposites Chemistry, Processing, and Applications
Coordonnateurs : Ahmed Jasim, Tiwari Brijesh K., Imam Syed H., Rao M.A.
In recent years, much attention has been focused on biodegradable polymers from renewable resources. Due to its availability and low cost, starch is a promising candidate among biopolymers for use in biodegradable packaging materials and for other purposes. Starch-Based Polymeric Materials and Nanocomposites: Chemistry, Processing, and Applications presents the latest developments in starch chemistry, rheology, starch derivatives, starch-based nanocomposites, and their applications.
Topics discussed include:
- The chemistry, microstructure, processing, and enzymatic degradation of starch
- The importance and role of starch as a gelling agent
- Plasticization and the role of plasticizers
- Various rheological techniques applied to starch-related products and the characteristics of starch dispersions
- Polymeric aspects of reactive extrusion (REX) and its use on starch and other biopolymers
- Cyclodextrins (CDs) and their industrial applications, and CD-based supramole and polymers
- The potential of starch in food packaging, edible packaging, feedstock for bioproducts, and industrial and consumer products
- The theoretical basis and derivation of the mathematical model for multicomponent systems and its solution algorithm
The book also explores recent progress in biodegradable starch-based hybrids and nanomaterials and the incorporation of nanoparticles in starches to enhance their mechanical and thermal properties. The book concludes by discussing the use of biopolymeric nanoparticles (BNPs) in drug delivery and life cycle assessment (LCA) of starch-based polymeric materials for packaging and allied applications.
With contributions from leading experts in academia and industry, this volume demonstrates the versatility of starch and its potential in a variety of applications.
Introduction—Starch as Biopolymer and Nanocomposite. Starch: Chemistry, Microstructure, Processing, and Enzymatic Degradation. Starch as Gelling Agent. Plasticized Starch. Rheological and Thermal Properties of Starch and Starch-Based Biopolymers. Modification of Biodegradable Polymers through Reactive Extrusion-I. Modification of Biodegradable Polymers through Reactive Extrusion-II. Starch-Derived Cyclodextrins and Its Future in Food Biopolymer Industry. Functional and Physicochemical Properties of Cyclodextrins. Introduction of Starch into Plastic Films: Advent of Starch in Plastics. Starch-Based Edible Films and Coatings. Starch as a Feedstock for Bioproducts and Packaging. Chemometric Analysis of Multicomponent Biodegradable Plastics by Fourier Transform Infrared Spectrometry: The R-Matrix Method. Starch Polymer as Advanced Material for Industrial and Consumer Products.
Recent Progress in Starch-Based Biodegradable Hybrids and Nanomaterials. Mechanical, Rheological, and Thermal Properties of Starch-Based Nanocomposites. Starch Nanocomposites and Nanoparticles: Biomedical Applications. Application of Life Cycle Assessment for Starch and Starch Blends. Index.
Dr. Jasim Ahmed’s research interests include food product development, food rheology and structure, novel food processing, and the thermal behavior of foods. His current focus is on bionanocomposites and application to food packaging.
Dr. Brijesh Tiwari’s Dr. Syed H. Imam Dr. M.A. Rao’s
Date de parution : 10-2016
17.8x25.4 cm
Date de parution : 04-2012
Ouvrage de 456 p.
17.8x25.4 cm
Thèmes de Starch-Based Polymeric Materials and Nanocomposites :
Mots-clés :
Starch Granules; Natural Materials; Starch Polymers; Food Science; MMT Nanocomposites; Nanotechnology; Biodegradable Polymers; Starch Composites; High Amylose Starch; Starch Chemistry; Amylose Lipid Complexes; Amylopectin Molecules; Guest Molecule; Twin Screw Extruder; Starch Dispersions; MMT Layer; Growth Rings; Das; Sodium Trimetaphosphate; Reactive Extrusion; Starch NPs; Ci Ne; Cereal Starches; Life Cycle; Ma 13C NMR; Reactive Extrusion Process; Thermoplastic Starch; Cloisite 30B; Neat PCL; Intrinsic Viscosity