By Susheel Kalia, Luc Avérous
This guide specializes in biopolymers for either environmental and biomedical purposes. It indicates fresh advances in know-how in all components from chemical synthesis or biosynthesis to finish use functions. those parts haven't been lined in one publication prior to and so they comprise biopolymers for chemical and biotechnological ameliorations, fabric buildings, characterization, processing, houses, and applications.After the creation which summarizes the significance of biopolymer out there, the e-book covers just about all the themes concerning polysaccharides, biofibers, bioplastics, biocomposites, ordinary rubber, gums, bacterial and blood appropriate polymers, and purposes of biopolymers in a variety of fields.
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Extra resources for Biopolymers: Biomedical and Environmental Applications
2, a value of 780 m2 g–1 for PIM-1 as compared to 545 m2 g–1 for the carbon. Since the smallest pores are filled first, the very low pressure region of the adsorption isotherm contains information about micropores. A method for determining the distribution of micropore size was developed by Horvath and Kawazoe [17,20]. The method assumes that all pores of a certain size will be filled at a particular relative pressure. The original Horvath–Kawazoe equation assumed the pores to be slit-shaped, but models for alternative pore geometries, such as cylinders , have been developed.
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Kotek, P. Pissis, S. Kripotou, P. Maroulas, Hyperbranched polyimides crosslinked with ethylene glycol diglycidyl ether: Glass transition dynamics and permeability, Polymer, 47, 6765–6772 (2006). (24) H. Gao, D. Wang, W. Jiang, S. Guan, Z. Jiang, Gas permeability of fluorinated hyperbranched polyimide, J. Appl. Polym. , 109, 2341–2346 (2008). (25) D. M. Sterescu, D. F. Stamatialis, M. Wessling, Boltorn-modified polyimide gas separation membranes, J. Membr. , 310, 512–521 (2008). (26) J. Peter, A.
Biopolymers: Biomedical and Environmental Applications by Susheel Kalia, Luc Avérous