• Title of article

    Rapid Enzymatically Reduction of Zincum Gluconicum for the Biomanufacturing of Zinc Oxide Nanoparticles by Mycoextracellular Filtrate of Penicillium Digitatum (Pdig- B3) as a Soft Green Technique

  • Author/Authors

    Issa, M. A. S Department of Biology - College of Sciences - University of Thi-Qar - Nasiriyah, Iraq

  • Pages
    10
  • From page
    101
  • To page
    110
  • Abstract
    Molds have been used as micro-biofactories for biomanufacturing of metal oxide nanoparticles (MetNps) since they are effortless, immaculate, safe, non-poisonous, vital-biocompatible, and environmentally acceptable. The present study aimed to explore the bioindustry, mold screening protocol, and characterization of zinc oxide nanoparticles (ZnONPs) using a diverse filamentous Green mold (FiGM) isolated from spoiled citrus fruits. Eight filamentous Penicillium digitatum mold strains had been obtained and subjected to investigate the capability of ZnONPs biosynthesis by fungal extracellular free-cell filtrate. P. digitatum (P-digB3) obtained the peak of ZnONps (379 nm) detected by the UV-visible spectrophotometry and was found as a significantly optimum strain in the highest quantity (mean±SD: 0.0138±0.001 gm/100 ml) and the smallest average NPs size. The ZnONPs were characterized by UV-visible scanning spectrophotometry, Atomic Force Microscopy, X-RD, Scanning Electron Microscopy (SEM), and Transmission Electron Microscopy (TEM). The final average size of ZnONPs was obtained at 65.46 nm with diversified shapes and dimensions. The present study concluded the high capabilities of fungi (FiGMs) as eco-friendly and cheap bio-nano factories to manufacture ZnONPs with great nano-level average size, which may consider new boost sources for use in many nano-sectors and applications.
  • Keywords
    ZnONPs , Zincum gluconicum , SEM and TEM , P. digitatum (Pdig-B3)
  • Journal title
    Archives of Razi Institute
  • Serial Year
    2022
  • Record number

    2729910