Ds. Muggli et Lf. Ding, Photocatalytic performance of sulfated TiO2 and Degussa P-25TiO(2) during oxidation of organics, APP CATAL B, 32(3), 2001, pp. 181-194
Citations number
43
Categorie Soggetti
Physical Chemistry/Chemical Physics","Environmental Engineering & Energy
Photocatalytic oxidations (PCOs) of heptane, trichloroethylene (TCE), ethan
ol, acetaldehyde, and toluene were carried out on sulfated TiO2 (SO42-/TiO2
) and Degussa P-25. Coverages of all organics on SO42-/TiO2 were significan
tly higher than on P-25. but P-25 was more active for PCO at room temperatu
re. Pulse PCO at room temperature suggests that steady-state PCO rates of a
cetaldehyde on the two catalysts may be similar, however. During PCO of hep
tane at room temperature, SO42-/TiO2 deactivated slower than P-25 so that t
he CO2 formation rate on P-25 was only 11% greater than that on SO42-/TiO2
after five 110 mu mol/g catalyst pulses of heptane.
Both pulse and steady-state PCO of TCE showed that although P-25 was more a
ctive than SO42-/TiP2, the CO2 production rate decreased with time on P-25
but not on SO42-/TiO2. Furthermore, CO2 selectivity increased with time as
PCO of TCE approached steady-state on SO42-/TiO2, whereas it decreased on P
-25. Selectivity to phosgene formation on P-25 was twice that on SO42-/TiO2
.
Sulfated TiO2 was more active and deactivated more slowly than P-25 during
PCO of acetaldehyde above 373 K. Since acetaldehyde is an intermediate for
PCO of several organics, SO42-/TiO2 may be preferable to Degussa P-25 for P
CO at elevated temperatures. (C) 2001 Elsevier Science B.V. All rights rese
rved.