Spray pyrolysis technique was used to make Carbon60-Zinc oxide (C60-ZnO) thin films, and chemical, structural, antibacterial, and optical characterizations regarding such nanocomposite have been done prior to and following treatment. Fullerene peaks in C60-ZnO thin films are identical and appear at the same angles. Following the treatment of the plasma, the existence regarding fullerene peaks in the thin films investigated suggests that the crystallographic quality related to C60-ZnO thin films has enhanced. Following plasma treatment, field emission scanning electron microscopy (FESEM) images regarding a C60-ZnO thin film indicate that both zinc oxide and fullerene particles had shrunk in the size and have an even distribution. In addition, chemical bonds of nanocomposite prior to and following the treatment of the plasma can be seen in thin film samples using Fourier-transform infrared (FTIR) chemical analysis. The grain size of C60-ZnO composite following plasma treatment is substantially greater compared to before plasma treatment. Two gram-negative and gram-positive bacteria of two different species have each been exposed to antibiotic activity, using produced C60-ZnO thin film.C60-ZnO thin film. On the other hand, it features a growth inhibition zone that inhibits both gram-negative and gram-positive index bacteria. The stabilized C60-ZnO composite exhibited excellent antibacterial sensitivity 16 mm to Escherichia coli (E. coli) and 20 mm to Staphylococcus aureus (S. aureus). Finally, the generated C60-ZnO thin film showed good efficacy against both groups of bacteria.
