Effect of sericin concentration and ethanol content on gelation behavior, rheological properties, and sponge characteristics of silk sericin

[Display omitted] •As sericin concentration increased, the structure of the sericin sponge became denser and more rigid, leading to a significant increase in bending strength and strain in the wet state.•The gelation behavior, gel strength, and gel-sol transition of sericin was controlled by varying...

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Bibliographic Details
Published in:European polymer journal 2017-08, Vol.93, p.761-774
Main Authors: Jang, Mi Jin, Um, In Chul
Format: Article
Language:English
Subjects:
Apoptosis
Biomedical materials
Disruption
Ethanol
Gelation
Gelation behavior
Gels
Mechanical properties
Oxidation resistance
Porosity
Rheological properties
Sericin
Silk
Sol-gel processes
Sponge
Swelling ratio
Transition temperature
Wound healing
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Summary:[Display omitted] •As sericin concentration increased, the structure of the sericin sponge became denser and more rigid, leading to a significant increase in bending strength and strain in the wet state.•The gelation behavior, gel strength, and gel-sol transition of sericin was controlled by varying the sericin concentration and ethanol content.•The morphology and physical properties of the sericin sponge were manipulated by changing the sericin concentration. Sericin gels and sponges have attracted attention in the biomedical and cosmetic fields because sericin has useful properties including a high UV and oxidation resistance, inhibition of UVB-induced apoptosis in human skin keratinocyte, wound healing, and wrinkle resistance effects. In this study, the effects of sericin concentration and ethanol content on the gelation behavior, rheological properties, and sponge characteristics of sericin were examined. As the sericin concentration increased, the rate of gelation of sericin accelerated and gel strength increased significantly. This occurred up to an ethanol content of 15%. Above that, the rate of gelation and the gel strength decreased. There was no change in the gel-sol transition temperature of sericin with the sericin concentration, although more ethanol addition resulted in a decrease in the starting temperature of thermal gel disruption. The crystallinity index of the frozen and thawed sericin sponge did not change with the sericin concentration, whereas it increased with increasing ethanol content up to 15% and decreased above 15%. As the sericin concentration was increased, the porosity and swelling ratio of the sericin sponge decreased and the mechanical properties of sericin sponge were remarkably improved.
ISSN:0014-3057
1873-1945
DOI:10.1016/j.eurpolymj.2017.03.048