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Unconditionally Blue: Curing Epoxy With Polyethylene Glycol (Peg) Surface-Functionalized Znxfe3- Xo4 Magnetic Nanoparticles Publisher



Jouyandeh M1, 2 ; Hamad SM3 ; Karimzadeh I4 ; Aghazadeh M1 ; Karami Z1, 2 ; Akbari V5 ; Shammiry F6 ; Formela K7 ; Saeb MR5 ; Ranjbar Z8 ; Ganjali MR1, 9
Authors
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Authors Affiliations
  1. 1. Center of Excellence in Electrochemistry, School of Chemistry, College of Science, University of Tehran, Tehran, Iran
  2. 2. Advanced Materials Group, Iranian Color Society (ICS), P.O. Box 1591637144, Tehran, Iran
  3. 3. Scientific Research Center, Soran University, PO Box 624, Soran, Kurdistan Region, Iraq
  4. 4. Faculty of Physics, Semnan University, Semnan, Iran
  5. 5. Department of Resin and Additives, Institute for Color Science and Technology, P.O. Box: 16765-654, Tehran, Iran
  6. 6. Department of Environmental Engineering, Central Tehran Branch, Islamic Azad University, Tehran, Iran
  7. 7. Department of Polymer Technology, Faculty of Chemistry, G. Narutowicza Str. 11/12, Gdansk University of Technology, Gdansk, 80-233, Poland
  8. 8. Department of Surface Coating and Corrosion, Institute for Color Science and Technology, Tehran, Iran
  9. 9. Biosensor Research Center, Endocrinology & Metabolism Molecular-Cellular Sciences Institute, Tehran University of Medical Sciences, Tehran, Iran

Source: Progress in Organic Coatings Published:2019


Abstract

Nanoparticles govern early (chemical-controlled) and late (diffusion-controlled) stages of epoxy crosslinking, respectively. Surface functionalization of nanoparticles with macromolecules was recognized as an effective route to compensate for inadequate diffusion-controlled crosslinking. However, the effect of bulk composition amended with cations having catalytic effect towards epoxy ring opening has remained hitherto undescribed. In this work, cathodic electrochemical method was applied to obtain naked iron oxide nanoparticles (IONPs), polyethylene glycol (PEG) capped IONPs (PEG-IONPs) and zinc-doped IONPs (Zn-doped PEG-IONPs) for evaluation of the effects of surface (alone) and surface-bulk (concurrent) modification of IONPs. Various techniques including FTIR, XRD, VSM, and FE-SEM were employed to probe into changes in the surface and bulk of nanoparticles. Cure Index calculated based on nonisothermal differential scanning calorimetry (DSC) allowed for labeling epoxy nanocomposites as Poor (Red) or Good (Blue) cured networks. Partial substitution of Fe2+ cations by Zn2+ in the bulk of Zn-doped PEG-IONPs with respect to PEG-IONPs labeled their corresponding epoxy nanocomposites in Blue and Red. Although at low and high heating rates epoxy/PEG-IONPs was labeled Red, epoxy/Zn-doped PEG-IONPs nanocomposites was unconditionally labeled Blue thanks to a more significant catalytic effect springing from Zn2+ cations in Zn-doped IONPs compared to hydroxyl groups alone in PEG-IONPs. © 2019 Elsevier B.V.
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