[11 CONG, Y., LONG, M., CUI, Z., et al., “Anchoring a uniform TiO2 layer on graphene oxide sheets as an efficient visible light photocatalyst”, Applied Surface Science, v. 282, pp. 400– 407, Oct. 2013.] |
TiO2 comercial |
P25 |
halógena (500 W) |
6,88 x 10-4
|
[11 CONG, Y., LONG, M., CUI, Z., et al., “Anchoring a uniform TiO2 layer on graphene oxide sheets as an efficient visible light photocatalyst”, Applied Surface Science, v. 282, pp. 400– 407, Oct. 2013.] |
TiO2 com óxido de grafeno (GO) |
nGO/nTi =2 |
halógena (500 W) |
1,44 x 10-3
|
[1515 ABDELAAL, M. Y., MOHAMED, R. M., “Novel Pd/TiO2 nanocomposite prepared by modified sol–gel method for photocatalytic degradation of methylene blue dye under visible light irradiation”, Journal of Alloys and Compounds, v. 576, pp. 201–207, Nov. 2013.] |
TiO2 preparado com secbutóxido de titânio |
TiO2
|
Xe (300 W) c/ filtro UV |
1,0x10-3
|
[1515 ABDELAAL, M. Y., MOHAMED, R. M., “Novel Pd/TiO2 nanocomposite prepared by modified sol–gel method for photocatalytic degradation of methylene blue dye under visible light irradiation”, Journal of Alloys and Compounds, v. 576, pp. 201–207, Nov. 2013.] |
TiO2/quitosana (CS) dopado com paládio (Pd) |
Pd/TiO2-CS |
Xe (300 W) / filtro UV |
1,4x10-2
|
[1616 ZHANG, J., XU, L. J., ZHU, Z. Q., et al., “Synthesis and properties of (Yb, N)-TiO2 photocatalyst for degradation of methylene blue (MB) under visible light irradiation”, Materials Research Bulletin, v. 70, pp. 358–364, Oct. 2015.] |
TiO2
|
TiO2(P25) |
fluorescente (30 W) |
2,02x10-3
|
[1616 ZHANG, J., XU, L. J., ZHU, Z. Q., et al., “Synthesis and properties of (Yb, N)-TiO2 photocatalyst for degradation of methylene blue (MB) under visible light irradiation”, Materials Research Bulletin, v. 70, pp. 358–364, Oct. 2015.] |
TiO2 codopado com itérbio e nitrogênio |
Yb-N-TiO2
|
fluorescente (30 W) |
9,10x10-3
|
[1818 MATOS, J., HOFMAN, M., PIETRZAK, R., “Synergy effect in the photocatalytic degradation of methylene blue on a suspended mixture of TiO2 and N-containing carbons”, Carbon, v. 54, pp. 460–471, Apr. 2013.] |
TiO2
|
TiO2 (P25) |
halide
|
4,50 x 10-3
|
[1818 MATOS, J., HOFMAN, M., PIETRZAK, R., “Synergy effect in the photocatalytic degradation of methylene blue on a suspended mixture of TiO2 and N-containing carbons”, Carbon, v. 54, pp. 460–471, Apr. 2013.] |
TiO2 - carbono (C) mistura (10:1). C obtido de rochas amoxidadas (NH3/ar) e ativadas (800 °C). |
PNA |
halide
|
2,39x10-2
|
[2121 JAISWAL, R., BHARAMBE, J., PATEL, N., et al., “Copper and nitrogen co-doped TiO2 photocatalyst with enhanced optical absorption and catalytic activity”, Applied Catalysis B: Environmental, v. 168-169, pp. 333–341, Jun. 2015.] |
TiO2 dopado com nitrogênio e cobre |
3N-2Cu-TiO2
|
Xe (150 W) |
1,17 x 10-2
|
[2323 ATHANASIOU, A., MITSIONIS, A., VAIMAKIS, T., et al., “A novel route for the production of TiO2 photocatalysts with low energy gap, via Triton-X and oleic acid surfactants”, Applied Surface Science, v. 319, pp. 143–150, Jun. 2014.] |
TiO2
|
TiO2(P25) |
Mercúrio (125 W) |
3,30 |
[2323 ATHANASIOU, A., MITSIONIS, A., VAIMAKIS, T., et al., “A novel route for the production of TiO2 photocatalysts with low energy gap, via Triton-X and oleic acid surfactants”, Applied Surface Science, v. 319, pp. 143–150, Jun. 2014.] |
TiO2 preparado com isopropóxido de titânio e surfactantes. |
T4 |
Mercúrio (125 W) |
3,48 |
[4545 RAUF, M. A., MEETANI, M. A., KHALEEL, A., et al., “Photocatalytic degradation of methylene blue using a mixed catalyst and product analysis by LC/MS”, Chemical Engineering Journal, v. 157, n. 2-3, pp. 373–378, Mar. 2010.] |
Óxido binário de Cr-Ti com 10 % de Cr3+
|
Ti-10Cr |
UV |
5,2x10-3
|
[4646 NANAKKAL, A. R., ALEXANDER, L. K., “Graphene/BiVO4/TiO2 nanocomposite: tuning band gap energies for superior photocatalytic activity under visible light”, Journal of Materials Science, v. 52, n. 13, pp. 7997–8006, Jul. 2017.] |
18 % GO reduzido / 60 % BiVO4 / 25 % TiO2
|
GBT4 |
halógena (500 W) |
4,59x10-1
|