Affiliation:
1. Doctoral Program in Nanosciences and Nanotechnology Center for Research and Advanced Studies of the National Polytechnic Institute Instituto Politécnico Nacional No. 2508, Zacatenco Mexico City 07360 Mexico
2. Department of Physics Center for Research and Advanced Studies of the National Polytechnic Institute Instituto Politécnico Nacional No. 2508, Zacatenco Mexico City 07360 Mexico
3. Department of Biotechnology and Bioengineering Center for Research and Advanced Studies of the National Polytechnic Institute Instituto Politécnico Nacional No. 2508, Zacatenco Mexico City 07360 Mexico
Abstract
AbstractIn this research, selected catalytic activity conditions of nano Cu‐TiO2 films were evaluated through a 2IV4−1 Fractional Factorial Design for methylene blue discoloration. The following conditions were set at two levels: dye concentration (mg/L) (A) at 3.13 and 5.81; aeration (psi) (B) with and without; radiation (nm) (C) at 320 (UV) and 470 (Visible); and nano‐TiO2 films (D) without and with Cu‐doping. Films were prepared by the Sol‐Gel dip‐coating method and characterized using X‐ray diffraction, revealing an anatase phase in TiO2; and anatase, rutile, and brookite crystalline phases in Cu‐doped nano‐TiO2, with average band gap energies of 3.82 and 3.77 eV. The catalytic activity of films was significantly affected (p<0.05) by aeration (0.0002), radiation (0.001), and Cu‐doped nano‐TiO2 (0.004). Dye concentration did not have a significant effect; however, the AC interaction was significant (p=0.015). A discoloration efficiency of 46.23 % was obtained with 5.81 mg/L dye concentration using Cu‐doped TiO2, with UV radiation and without aeration, whereas a 52.32 % efficiency was achieved with 3.13 mg/L dye concentration using non Cu‐doped TiO2. Using factorial designs allows us to identify the main variables and their interactions to determine the optimal conditions for the catalytic activity of nano‐TiO2.