Double shelled titanium dioxide@mesoporous organosilica nanotube as an amphiphilic photoactive nanoreactor for efficient photocatalytic oxidation of styrene

A novel double shelled titanium dioxide@mesoporous organosilica nanotubes as an amphiphilic photoactive nanoreactor for photocatalytic oxidation of styrene under green conditions. [Display omitted] In this work, we have proposed a strategy to fabricate double-shell nanotubes as amphiphilic photoacti...

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Bibliographic Details
Published in:Journal of colloid and interface science 2023-12, Vol.651, p.235-242
Main Authors: Qiao, Xiaoyun, Xiong, Zeshan, Wang, Yi, Wang, Runwei, Zhang, Zongtao, Qiu, Shilun
Format: Article
Language:English
Subjects:
Amphiphilic nanoreactor
Cobalt porphyrin
Periodic mesoporous organosilica
Styrene oxidation
TiO2 nanotubes
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Summary:A novel double shelled titanium dioxide@mesoporous organosilica nanotubes as an amphiphilic photoactive nanoreactor for photocatalytic oxidation of styrene under green conditions. [Display omitted] In this work, we have proposed a strategy to fabricate double-shell nanotubes as amphiphilic photoactive nanoreactors (HTTBPC) through the ordered hybridization of mesoporous organosilicon (PMO) and titanium dioxide (TiO2) nanotubes. Unlike the previous rough composite, the heterogeneous structure established between cobalt-porphyrin functionalized PMO and conventional TiO2 has a staggered matching band gap, which makes it have excellent light harvesting and high carrier separation ability. This is still unexplored. Interestingly, the prepared photocatalysts exhibited superior activity (99%) and benzaldehyde selectivity (94%) in the oxidation of styrene in water at room temperature, which was 3.8 and 2.8 times higher than that of TiO2 nanotubes and PMO functionalized with cobalt porphyrin, respectively. It was demonstrated that the strong interaction between cobalt porphyrin PMO and TiO2 improved the separation of photogenerated carriers and the amphiphilic properties of mesoporous organosilica boosted the adsorption of substrate molecules in water, contributing to the significantly enhanced photocatalytic activity. This work provides a design of high-performance photocatalysts for alkene oxidation under green conditions.
ISSN:0021-9797
1095-7103
DOI:10.1016/j.jcis.2023.07.175