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Volume 3, Issue 4 (Suppl)
Polym Sci
ISSN: 2471-9935 Polym Sci, an open access journal
October 12-13, 2017 Osaka, Japan
Annual Meeting on
Biopolymers and Drug Delivery Systems
Biopolymers Meeting 2017
October 12-13 2017
Page 50
Preparation of polysaccharide hydrogels with different process methods
Jihyun Yeo
Seoul National University, Republic of Korea
P
olysaccharides derived from natural resources are widely used to develop superabsorbent polymers. Previous studies were grafting
petroleum-based synthetic polymers onto polysaccharides. But, these products have a disadvantage that complete biodegradation
is impossible. In this study, modified starch and CMC were used as main materials, and chemical bonding of two polysaccharides
was tried by esterification. Starch modification and hydrogel preparation were conducted as follows. First, the oxidation of starch was
carried out in order to improve the functionality of compound. The hydroxyl groups, primarily at C-2, C-3, and C-6 positions, were
transformed to aldehyde and carboxylic acid by oxidation. And then, the polysaccharide hydrogels were prepared by esterification
between hydroxyl groups of CMC (or CMC-g-itaconic acid) and aldehyde group of modified starch. The final product was prepared in
the form of powder or film, and various characteristics were analyzed. FT-IR spectrometer was used to confirm the chemical structure
of products. The FT-IR spectra of starch aldehydes showed the characteristic IR bands at ~1735 cm-1, which confirm the oxidation of
starch. In FT-IR analysis of hydrogels, the peaks related to ester bonding were observed. When hydrogel was prepared in powder form,
it was confirmed that all samples showed two peaks at 1750 cm-1 and 1660 cm-1. In film form, two peaks were observed at 1710 cm-1
and 1610 cm-1 in all samples using CMC-g-itaconic acid. The maximum swelling ratio of hydrogel was about 25.
Biography
Jihyun Yeo has completed her bachelor at the age of 22 years from Kyung Hee University and is taking a master's degree at Department of biosystems and
biomaterials science and engineering, Seoul National University.
jamong0109@snu.ac.krJihyun Yeo, Polym Sci 2017, 3:4
DOI: 10.4172/2471-9935-C1-006