ITexLi, ExLi4EvA, 2016. – 281 p. – ISBN: 953512255XThis volume is dedicated to advancement and engineering in biopolymers
The book divided into three Sections.
Section A covers synthesis of biopolymers. Lignocellulosic feedstock contains cellulose, hemicellulose, and lignin, which are used for synthesis of biopolymers. Polymer-coated noble metal nanoparticles are used in nanobiomedicine and fundamental biomaterials.
Section B describes applications of biopolymers in biomedical, antimicrobial, industrial, nanotechnology, laser-based thin films, and regenerative medicines.
Section C is dedicated for advancement and engineering in biopolymers for personal protective garments, equipments, membrane separation processes, purifications, and new generation of high-performance biomaterials. A new numerical-cum-graphical method called TI2BioP (Topological Indices to BioPolymers) has been developed to estimate topological indices (TIs) from two-dimensional (2D) graphical approaches for the natural biopolymers DNA, RNA, and proteins.
Contents
Biopolymers from Waste Biomass — Extraction, Modification and Ulterior Uses
Biopolymer-mediated Green Synthesis of Noble Metal Nanostructures
Biopolymers – Application in Nanoscience and Nanotechnology
Biopolymer Thin Films Synthesized by Advanced Pulsed Laser Techniques
Hydrogels for Regenerative Medicine
Nano-biomaterials in Antimicrobial Therapy
Spectroscopic Characterization of Multilayered Functional Protective Polymers via Surface Modification with Organic Polymers against Highly Toxic Chemicals
A Novel Application of Oceanic Biopolymers — Strategic Regulation of Polymer Characteristics for Membrane Technology in Separation Engineering
Bio-Interfaces Engineering Using Laser-Based Methods for Controlled Regulation of Mesenchymal Stem Cell Response In Vitro
TI2BioP — Topological Indices to BioPolymers. A Graphical– Numerical Approach for Bioinformatics
