Selective wet-chemical etching to create TiO₂@MOF frame heterostructure for efficient photocatalytic hydrogen evolution
Close heterojunction interface, open diffusion channel and the reactivity of the exposed facet are three key factors that affect the photocatalytic activity of porous heterojunction materials. It is significant to study the influence of these three factors on the photocatalytic activity of metal-org...
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sg-ntu-dr.10356-1547222022-01-05T06:21:27Z Selective wet-chemical etching to create TiO₂@MOF frame heterostructure for efficient photocatalytic hydrogen evolution Sun, Liming Yuan, Yusheng Wang, Fan Zhao, Yanli Zhan, Wenwen Han, Xiguang School of Physical and Mathematical Sciences Division of Chemistry and Biological Chemistry Science::Chemistry Chemical Etching Heterojunction Close heterojunction interface, open diffusion channel and the reactivity of the exposed facet are three key factors that affect the photocatalytic activity of porous heterojunction materials. It is significant to study the influence of these three factors on the photocatalytic activity of metal-organic framework (MOF)-based heterojunction systems. Herein, we synthesized the TiO2@NH2-MIL-125(Ti) frame structure (TiO2@MOF FS) by in-situ self-sacrificial hydrolytic etching approach with directional chemical protection, where four exposed facets are all active NH2-MIL-125(Ti) {100} facets. According to the structural characteristics of NH2-MIL-125(Ti) {100} facets, tannic acid was selected as the directional protective agent, and NH2-MIL-125(Ti) was etched from the inside out by the hydrolysis method. The obtained TiO2@MOF FS possessed tight heterojunction interface between TiO2 and NH2-MIL-125(Ti), while maintaining the open diffusion channels of NH2-MIL-125(Ti). Benefited from the improved electrical conductivity, open diffusion channels and high reactivity of the exposed facets, the obtained TiO2@MOF FS showed excellent photocatalytic hydrogen production efficiency under sun light illumination, without the deposition of any noble metal co-catalyst. This work provides a novel research idea for the fabrication of highly efficient MOF-based photocatalysts. Agency for Science, Technology and Research (A*STAR) This work was supported by the National Natural Science Foundation of China (21671085 and 21701063), the Natural Science Foundation of Jiangsu Province (BK20161160 and BK20191466), the Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions, and the Jiangsu Overseas Visiting Scholar Program for University Prominent Yong & Middle-Aged Teachers and Presidents. It was also supported by the Singapore Agency for Science, Technology and Research (A*STAR) AME IRG grant (A1783c0007). 2022-01-05T06:21:27Z 2022-01-05T06:21:27Z 2020 Journal Article Sun, L., Yuan, Y., Wang, F., Zhao, Y., Zhan, W. & Han, X. (2020). Selective wet-chemical etching to create TiO₂@MOF frame heterostructure for efficient photocatalytic hydrogen evolution. Nano Energy, 74, 104909-. https://dx.doi.org/10.1016/j.nanoen.2020.104909 2211-2855 https://hdl.handle.net/10356/154722 10.1016/j.nanoen.2020.104909 2-s2.0-85084699854 74 104909 en A1783c0007 Nano Energy © 2020 Elsevier Ltd. All rights reserved. |
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Science::Chemistry Chemical Etching Heterojunction Sun, Liming Yuan, Yusheng Wang, Fan Zhao, Yanli Zhan, Wenwen Han, Xiguang Selective wet-chemical etching to create TiO₂@MOF frame heterostructure for efficient photocatalytic hydrogen evolution |
| description |
Close heterojunction interface, open diffusion channel and the reactivity of the exposed facet are three key factors that affect the photocatalytic activity of porous heterojunction materials. It is significant to study the influence of these three factors on the photocatalytic activity of metal-organic framework (MOF)-based heterojunction systems. Herein, we synthesized the TiO2@NH2-MIL-125(Ti) frame structure (TiO2@MOF FS) by in-situ self-sacrificial hydrolytic etching approach with directional chemical protection, where four exposed facets are all active NH2-MIL-125(Ti) {100} facets. According to the structural characteristics of NH2-MIL-125(Ti) {100} facets, tannic acid was selected as the directional protective agent, and NH2-MIL-125(Ti) was etched from the inside out by the hydrolysis method. The obtained TiO2@MOF FS possessed tight heterojunction interface between TiO2 and NH2-MIL-125(Ti), while maintaining the open diffusion channels of NH2-MIL-125(Ti). Benefited from the improved electrical conductivity, open diffusion channels and high reactivity of the exposed facets, the obtained TiO2@MOF FS showed excellent photocatalytic hydrogen production efficiency under sun light illumination, without the deposition of any noble metal co-catalyst. This work provides a novel research idea for the fabrication of highly efficient MOF-based photocatalysts. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Sun, Liming Yuan, Yusheng Wang, Fan Zhao, Yanli Zhan, Wenwen Han, Xiguang |
| format |
Article |
| author |
Sun, Liming Yuan, Yusheng Wang, Fan Zhao, Yanli Zhan, Wenwen Han, Xiguang |
| author_sort |
Sun, Liming |
| title |
Selective wet-chemical etching to create TiO₂@MOF frame heterostructure for efficient photocatalytic hydrogen evolution |
| title_short |
Selective wet-chemical etching to create TiO₂@MOF frame heterostructure for efficient photocatalytic hydrogen evolution |
| title_full |
Selective wet-chemical etching to create TiO₂@MOF frame heterostructure for efficient photocatalytic hydrogen evolution |
| title_fullStr |
Selective wet-chemical etching to create TiO₂@MOF frame heterostructure for efficient photocatalytic hydrogen evolution |
| title_full_unstemmed |
Selective wet-chemical etching to create TiO₂@MOF frame heterostructure for efficient photocatalytic hydrogen evolution |
| title_sort |
selective wet-chemical etching to create tio₂@mof frame heterostructure for efficient photocatalytic hydrogen evolution |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/154722 |
| _version_ |
1722355353010569216 |