South African Journal of Chemical Engineering (Oct 2024)
Reusability and regeneration of antibacterial filter immobilized zinc oxide nanoparticles on white silica gel beads coated with chitosan
Abstract
Most antibacterial air filters show good performance for single-use. However, reusable ones are also essential for reducing cost, emergency use, and environmental reduction waste, which are still less attention by researchers. This study investigated the reusability and regeneration capabilities of air filters containing zinc oxide nanoparticles immobilized on white silica gel beads coated with chitosan (ZnOChSi). TEM confirmed nanoparticle size of 11.5 ± 2 nm and dispersed particles. Bacteria-containing spore (Bacillus subtilis) was used to investigate the antibacterial properties of the air filter. The reusable ZnOChSi air filter showed antibacterial properties up to the fourth cycle (4 × 48 h) with >20% efficacy and was no longer practical for the fifth cycle. The regenerated ZnOChSi air filter still performed relatively high antibacterial properties until the third cycle (3 × 48 h) with >50% efficacy and was slowly decreased for continued use. This regeneration test confirmed that the cleansing (heating) method carried out once after 2 × 48 h re-activated the antibacterial properties of the filter. The zinc content release was 1.186 mg/L (0.012% from 10.245 g of the zinc oxide filter).
