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SnO2-Ag composite nanomaterials of mass ratio 1:4, 2:3, 3:2 and 4:1 were fabricated and tested for toxicity to E. coli using the pour-plate technique. The said nanomaterials were mixed with laminating fluid and then coated on glass slides. The intensity of UVA transmitted through the coated glass slides was measured. Results revealed that the 1:4 ratios of SnO2-Ag composite nanomaterials have the optimum toxicity to E. coli. Furthermore, the glass slides coated with SnO2 nanomaterial showed the lowest intensity of transmitted UVA.
Gil Nonato C. Santos; Eduardo B. Tibayan; Gwen B. Castillon; Elmer Estacio; Takashi Furuya; Atsushi Iwamae; Kohji Yamamoto; Masahiko Tani. Tin Oxide-Silver Composite Nanomaterial Coating for UV Protection and Its Bactericidal Effect on Escherichia coli (E. coli). Coatings 2014, 4, 320 -328.
AMA StyleGil Nonato C. Santos, Eduardo B. Tibayan, Gwen B. Castillon, Elmer Estacio, Takashi Furuya, Atsushi Iwamae, Kohji Yamamoto, Masahiko Tani. Tin Oxide-Silver Composite Nanomaterial Coating for UV Protection and Its Bactericidal Effect on Escherichia coli (E. coli). Coatings. 2014; 4 (2):320-328.
Chicago/Turabian StyleGil Nonato C. Santos; Eduardo B. Tibayan; Gwen B. Castillon; Elmer Estacio; Takashi Furuya; Atsushi Iwamae; Kohji Yamamoto; Masahiko Tani. 2014. "Tin Oxide-Silver Composite Nanomaterial Coating for UV Protection and Its Bactericidal Effect on Escherichia coli (E. coli)." Coatings 4, no. 2: 320-328.