Crystal phase-dependent generation of mobile OH radicals on TiO2: Revisiting the photocatalytic oxidation mechanism of anatase and rutile
- Crystal phase-dependent generation of mobile OH radicals on TiO2: Revisiting the photocatalytic oxidation mechanism of anatase and rutile
- 문건희; 황지영; 김법모; Takashi Tachikawa; Tetsuro Majima; 홍성우; 조강우; 김우열; 최원용
- Issue Date
- Applied catalysis B, Environmental
- VOL 286-119905
- Titanium dioxide has been the most popular environmental photocatalyst of which role critically depends on the generation of OH radicals. In particular, the mobile free OH racial (radical dotOHf) generation and the subsequent diffusion from the surface are critical in achieving the mineralization of non-adsorbing substrates by extending the reaction zone from the surface to the solution bulk. Here the origin of the crystalline phase-dependent generation of radical dotOHf was investigated using tetramethylammonium (TMA) cation as a main probe compound for radical dotOHf in a UV/TiO2 photocatalytic system. We found a clear evidence that the mobile free OH radical is generated through a reductive conversion of dissolved O2 on anatase only (O2 → H2O2 → radical dotOHf). The surface trapped holes are not involved in radical dotOHf formation, but lead to the generation of surface-bound OH radical (radical dotOHs) on both anatase and rutile. The generation of radical dotOHf is favorable on anatase because more H2O2 are evolved (via dioxygen reduction) and adsorbed on the anatase surface. Rutile showed little sign of radical dotOHf formation. The generation of 18O-labelled p-hydroxybenzoic acid on anatase only (not rutile) from benzoic acid oxidation under 18O2-saturated condition provides a solid evidence that the radical dotOHf generation mechanism on anatase involves the reductive pathway. Better understanding of radical dotOHf production pathway in photocatalysis will provide a new insight leading to an engineering solution for how the production of radical dotOHf can be maximized, which is critically important in achieving the efficient photocatalytic oxidation of various pollutants.
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