Physicochemical characteristics and functional properties of five commercially available chitins and
five chitosans were investigated. Physicochemical characteristics (nitrogen, ash, degree of deacetylation, bulk density, and viscosity) differed with products. In functional properties, dye binding
capacity differed depending on the products, although average binding capacity (63%) of chitosans
was higher than that (54%) of chitins. Water binding capacity ranged from 381 to 673% for chitins
and from 458 to 805% for chitosans. Fat binding capacities of chitins were mostly similar (316−320%) except for one product (563%), whereas chitosans showed dissimilar binding capacities from
314 to 535%. However, significant correlations were observed between water binding capacity and
bulk density (r = −0.89, P < 0.01) and between fat binding capacity and viscosity (r = 0.72, P <
0.05) of chitin products. Both water and fat binding capacity of chitosan products were significantly
correlated positively with ash (r = 0.81, 0.80) and negatively with bulk density (r = −0.98, −0.95).
Emulsifying capacity of egg yolk increased by addition of chitosan compared with the control. No
differences in emulsifying capacity of chitosan products were observed at each concentration tested.
Keywords: Chitin; chitosan; physicochemical characteristics; functional properties
Deacetylation of chitin under autoclaving conditions (15 psi/121 degrees C) was evaluated for the preparation of chitosan under different NaOH concentrations and reaction times. Deacetylation was effectively achieved by treatment of chitin under elevated temperature and pressure with 45% NaOH for 30 min and a solids/solvent ratio of 1:15. Treated chitosan showed similar nitrogen content (7.42%), degree of deacetylation (90.4%), and molecular mass (1560 kDa) but significantly higher viscosity values (2025 cP) compared with those (7.40%, 87.6%, 1304 kDa, and 143 cP, respectively) of a commercial chitosan. Reduction of the solids/solvent ratio from 1:15 to 1:10 did not affect degree of deacetylation, viscosity, and molecular mass of chitosan.
Dye binding capacity of different commercial chitins was
investigated with two commercial chitin
products and two dyes (FD&C Red No. 3 and Yellow No. 5). Dye
binding capacity of chitin increased
with increasing dye concentrations and was dependent on the chitin
products and the specific dyes
used. A slight decrease in dye binding capacity was noted with
reduction in chitin particle sizes.
Within a pH range of 3−9, dye binding capacity was relatively
stable. After 24 h of settling, no dye
was released from dyed chitin at pH 2 and 3. Above this range,
release of dye increased with pH,
up to 1.1 and 5.8% of bound red and yellow dye, respectively, at pH 9.
Dye release was less noticeable
in 1 h of settling.
Keywords: Chitin; dye; FD&C Red No. 3; FD&C Yellow No.
5
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.