Title of article
Enzymatic degradation of Poly (?-Caprolactone) and Starch blends bontaining SiO2 nanoparticle by Amyloglucosidase and ?-Amylase
Author/Authors
Abbasi، Z. نويسنده 2Young Researchers and Elite club, Ilam Branch, Islamic Azad University, Ilam, Islamic Republic of Iran , , Rezaee Nezhad، E. نويسنده M.S. degrees , , Moradi، V. نويسنده 1Young Researchers and Elite Club, Ilam Branch, Islamic Azad University, Ilam, Iran. , , Moradi، F. نويسنده 1Young Researchers and Elite Club, Ilam Branch, Islamic Azad University, Ilam, Iran. , , Ahmadi، O. نويسنده 1Young Researchers and Elite Club, Ilam Branch, Islamic Azad University, Ilam, Iran. , , Homafar، A. نويسنده 3Department of Chemistry, Eyvan-e-Gharb Branch, Islamic Azad University, Eyvan, Iran. ,
Issue Information
فصلنامه با شماره پیاپی 20 سال 2014
Pages
7
From page
549
To page
555
Abstract
The aims of the study were to investigate the effect of poly(? -caprolactone) (PCL) and nano- SiO2 within the thermoplastic starch (TPS) blends on the rate and extent of starch enzymatic hydrolysis using enzymes ?-amylase and amyloglucosidase. The results of this study have revealed that blends with nano-SiO2 content at 6 wt% exhibited a significantly reduced rate and extent of starch hydrolysis. The results suggest that this may have been attributed to interactions between starch and nano- SiO2 that further prevented enzymatic attack on the remaining starch phases within the blend. The total solids that remained after 6000 min were 52 wt. % (TPS: PCL); 59 wt.% (TPS: PCL: 2% nano-SiO2); 64 wt.% (TPS: PCL: 4% nano-SiO2); 67 wt.% (TPS: PCL: 6% nano-SiO2). The rate of glucose production from each nanocomposite substrates was most rapid for the substrate without nano- SiO2 and decreased with the addition of nano- SiO2, for TPS: PCL blend (374 ?g/ml.h), 246 ?g/ml.h (TPS: PCL: 2% nano- SiO2), 217 ?g/ml.h (TPS: PCL: 4% nano- SiO2) and 199 ?g/ml.h for (TPS: PCL: 6% nano- SiO2). Enzymatic degradation behaviour of TPS: PCL: nano- SiO2 was based on the determinations of Water resistance, Weight loss and the Reducing sugars.
Journal title
International Journal of Nano Dimension (IJND)
Serial Year
2014
Journal title
International Journal of Nano Dimension (IJND)
Record number
1972189
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