• 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