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Is Black Titania a Promising Photocatalyst?
| Title: | Is Black Titania a Promising Photocatalyst? |
| Authors: | Janczarek, Marcin Browse this author | | Endo-Kimura, Maya Browse this author | | Wang, Kunlei Browse this author | | Wei, Zhishun Browse this author | | Akanda, Md Mahbub A. Browse this author | | Markowska-Szczupak, Agata Browse this author | | Ohtani, Bunsho Browse this author →KAKEN DB | | Kowalska, Ewa Browse this author →ORCID |
| Keywords: | black titania | | hydrogenated titania | | NIR activity | | vis response | | self-doping | | oxygen vacancies |
| Issue Date: | Nov-2022 |
| Publisher: | MDPI |
| Journal Title: | Catalysts |
| Volume: | 12 |
| Issue: | 11 |
| Start Page: | 1320 |
| Publisher DOI: | 10.3390/catal12111320 |
| Abstract: | Five different (commercial and self-synthesized) titania samples were mixed with NaBH4 and then heated to obtain black titania samples. The change in synthesis conditions resulted in the preparation of nine different photocatalysts, most of which were black in color. The photocatalysts were characterized by various methods, including X-ray diffraction (XRD), diffuse reflectance spectroscopy (DRS), X-ray photoelectron spectroscopy (XPS), scanning transmission electron microscopy (STEM), photoacoustic and reverse-double beam photoacoustic spectroscopy (PAS/RDB-PAS). The photocatalytic activity was tested for oxidative decomposition of acetic acid, methanol dehydrogenation, phenol degradation and bacteria inactivation (Escherichia coli) under different conditions, i.e., irradiation with UV, vis, and NIR, and in the dark. It was found that the properties of the obtained samples depended on the features of the original titania materials. A shift in XRD peaks was observed only in the case of the commercial titania samples, indicating self-doping, whereas faceted anatase samples (self-synthesized) showed high resistance towards bulk modification. Independent of the type and degree of modification, all modified samples exhibited much worse activity under UV irradiation than original titania photocatalysts both under aerobic and anaerobic conditions. It is proposed that the strong reduction conditions during the samples' preparation resulted in the partial destruction of the titania surface, as evidenced by both microscopic observation and crystallographic data (an increase in amorphous content), and thus the formation of deep electron traps (bulk defects as oxygen vacancies) increasing the charge carriers' recombination. Under vis irradiation, a slight increase in photocatalytic performance (phenol degradation) was obtained for only four samples, while two samples also exhibited slight activity under NIR. In the case of bacteria inactivation, some modified samples exhibited higher activity under both vis and NIR than respective pristine titania, which could be useful for disinfection, cancer treatment and other purposes. However, considering the overall performance of the black titania samples in this study, it is difficult to recommend them for broad environmental applications. |
| Type: | article |
| URI: | http://hdl.handle.net/2115/87483 |
| Appears in Collections: | 触媒科学研究所 (Institute for Catalysis) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)
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