HaeYong Kweon scite author profile

Silk fibroin/chitosan blend films were examined through IR spectroscopy to determine the conformational changes of silk fibroin. The effects of the fibroin/chitosan blend ratios (chitosan content) on the physical and mechanical properties were investigated to discover the feasibility of using these films as biomedical materials such as artificial skin and wound dressing. The mechanical properties of the blend films containing 10 -40% chitosan were found to be excellent. The tensile strength, breaking elongation, and Young's modulus were affected by the chitosan contents of the blend films, which were also related to the density and degree of swelling. The coefficient of water vapor permeability of the blend films increased linearly with the chitosan content, and the values of 1000 -2000 g m Ϫ2 day Ϫ1 were comparable to those of commercial wound dressings. Silk fibroin/chitosan blend films had good oxygen and water vapor permeabilities, making them useful as biomaterials. In particular, the blend film containing 40 -50% chitosan showed very high oxygen permeability.

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The role of formic acid in solution stability and crystallization of silk protein polymer

Kweon

Lee

et al. 2003

International Journal of Biological Macromolecules

160

106

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Structural and thermal characteristics of Antheraea pernyi silk fibroin/chitosan blend film

Kweon

Park

2001

Polymer

166

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HaeYong Kweon

A novel degradable polycaprolactone networks for tissue engineering

Structural characteristics and properties of the regenerated silk fibroin prepared from formic acid

Physical properties of silk fibroin/chitosan blend films

The role of formic acid in solution stability and crystallization of silk protein polymer

Structural and thermal characteristics of Antheraea pernyi silk fibroin/chitosan blend film

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