Acorus calamus-zinc oxide nanoparticle coated cotton fabrics shows antimicrobial and cytotoxic activities against skin cancer cells

Microbial infections are a general public health problem worldwide, and their resistance to antibiotics has increased rapidly. The prevention of microbial growth on the surface of cotton fabric is essential to control skinrelated infections. In this work, we evaluated A.calamus- zinc oxide nanoparticle (AC-ZnONPs) coated cotton fabrics for antibacterial and cytotoxic activities. The formulated AC-ZnONPs were characterized by UVspectrophotometer, SEM, EDX, FT-IR, and TEM studies. The AC-ZnONPs amalgamation into the cotton fabrics was done by the dipping technique. The antimicrobial activity and cytotoxic activity were executed by standard approaches. The results of UV-spectrophotometer, TEM, and SEM, and EDX proved the formation and existence of AC-ZnONPs on the fabrics' surface. FT-IR results demonstrated the existence of numerous functional groups. AC-ZnONPs efficiently suppressed the growth of the pathogenic microbes with a maximum inhibition at 60 mu g of AC-ZnONPs against E.coli and S.aureus. The AC-ZnONPs coated fabrics also prevented microbial growth with maximum inhibition against P.aeruginosa, K.oxytoca, and A.baumanii. In addition, AC-ZnONPs efficiently suppressed the viability of SK-MEL-3 cells. Altogether, our findings disclosed that the AC-ZnONPs coated fabrics displayed excellent antimicrobial activity against the pathogenic microbes and could be utilized in the medical fields in the future.