Article

Journal of Materials Science

, Volume 48, Issue 23, pp 8215-8227

First online:

Anti-microbial and anti-corrosive poly (ester amide urethane) siloxane modified ZnO hybrid coatings from Thevetia peruviana seed oil

  • T. O. SiyanbolaAffiliated withChemistry Department, College of Science and Technology, Covenant University
  • , K. SasidharAffiliated withPolymers and Functional Materials Division, Indian Institute of Chemical Technology
  • , B. AnjaneyuluAffiliated withCentre for Lipid Research, Indian Institute of Chemical Technology
  • , K. P. KumarAffiliated withBiology Division, Indian Institute of Chemical Technology
  • , B. V. S. K. RaoAffiliated withBiology Division, Indian Institute of Chemical Technology
  • , Ramanuj NarayanAffiliated withPolymers and Functional Materials Division, Indian Institute of Chemical Technology
  • , O. OlaofeAffiliated withChemistry Department, University of Ado-Ekiti
  • , E. T. AkintayoAffiliated withChemistry Department, University of Ado-Ekiti
  • , K. V. S. N. RajuAffiliated withPolymers and Functional Materials Division, Indian Institute of Chemical Technology Email author 

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Abstract

The utilization of renewable resources for the development of organic coatings is a viable means of creating alternatives to petroleum-based chemicals which are not eco-friendly. This paper reports the synthesis of polyesteramide–urethane–silica–zinc oxide hybrid coatings from Thevetia peruviana seed oil (TPSO). The periphery of ZnO nano-particles is modified with 3-aminopropyltrimethoxysilane to prepare silica grafted ZnO composite particles. The TPSO based polyesteramide was reacted with 4,4′-diisocyanatodicyclohexylmethane in presence of siloxane modified ZnO to obtain –NCO terminated polyesteramide–urethane–silica ZnO prepolymer. These hybrid pre-polymers were casted on tin foil and cured under atmospheric moisture to obtain eco-friendly, moisture cured polyesteramide–urethanes–silica–zinc oxide hybrid coating films. The synthesized polyester and polyurethane formation was confirmed by using FT-IR and NMR spectroscopic techniques. The resultant hybrid coating films were characterized by using FT-IR, TGA, DSC, SEM, corrosion resistance and microbial resistance. Results confirm that with increase of siloxane modified ZnO content in the polyurethane matrix thermal stability, glass transition temperature and corrosion resistance improved. The antibacterial activity shows that the hybrid films exhibit excellent resistance towards Escherichia coli and Staphylococcus aureus. The salt spray test on coated panel samples show good corrosion resistance properties.