Antimicrobial Performance of Sole Leather Loaded with Zinc Oxide Nanoparticle

Abstract

ABSTRACT Natural leather still represents great importance among the materials used by humans in modern times, although it is the oldest-known fiber used by humans. Adding new features to the leather, such as bacteria and fungi resistance, electrical conductivity and magnetic properties, is an ambitious goal for leather developers. In our study, production and characterization of anti-microbial sole leather coated with zinc oxide nanoparticles were achieved. For this purpose, the ZnONPs have been prepared through green synthesis and the prepared nanomaterial loaded on the sole leather by a padding mangle. The surface morphology of the nano coated sole leather was studied using a scanning electron microscope (SEM). Antimicrobial performance of the treated leather to some microorganisms was evaluated by applying the qualitative agar disc diffusion method. The SEM image of the treated leather samples showed successive leather coating, and the nanoparticles completely adhere to the leather surface. The nano-treated leather samples showed significant resistance to the tested bacteria and fungi. Results are promising for the utilization of zinc oxide nanoparticles as additives for sole leather coating. Accordingly, the study succeeded in producing a natural microorganism-resistant sole leather, which can be used in the production of healthy and microorganisms-resistant shoes.