Anatase TiO<sub>2</sub> Mesocrystals: Green Synthesis, In Situ Conversion to Porous Single Crystals, and Self‐Doping Ti<sup>3+</sup> for Enhanced Visible Light Driven Photocatalytic Removal of NO

Tan, Biying; Zhang, Xuehao; Li, Yongjun; Chen, Hao; Ye, Xiaozhou; Wang, Yun; Ye, Jianfeng

doi:10.1002/chem.201605294

Cited by 46 publications

(44 citation statements)

References 70 publications

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“…The 68.3° angle between the (002) and (101) planes in the SAED pattern of Figure b proves that the nanocrystals align along the [001] direction to form an ordered assembly, and the regular single‐crystal‐like SAED pattern suggests the formation of mesocrystals . Furthermore, the light‐colored regions in Figure b indicate the presence of pores of approximately 3.4 nm in size between the nanocrystals in the individual particle; this further proves the mesoporous characteristics of the mesocrystal . In addition, the HRTEM image in Figure c clearly reveals that the crystal lattice of the nanoparticles is highly parallel, which is a characteristic of mesocrystals .…”

Section: Resultssupporting

confidence: 88%

Photocatalytic Properties Dependent on the Interfacial Defects of Intergrains within TiO₂ Mesocrystals

Wang

Chen

Luan

et al. 2018

Chemistry A European J

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The regulation of interfacial defects of nanocrystals aligned orderly in a superstructured photocatalyst is an effective approach to improve the photocatalytic performance. However, the synthesis of ordered self-assemblies with abundant interfacial defects and reactive sites is hard to achieve, and applications are limited due to the unclear physicochemical properties, which result from the unique mesocrystalline microstructures. It is reported herein that the photocatalytic properties depend on the interfacial defects of intergrains in anatase TiO mesocrystals (TMCs). Research reveals that the photocatalytic activity largely depends on defects, such as lattice distortion and oxygen vacancies, which are located at highly aligned interfaces of intergrains within TMCs. Moreover, the mesocrystalline TiO photocatalysts exhibit higher photocatalytic performance in organic degradation and hydrogen evolution, compared with single crystals and polycrystals; this can be ascribed to an appropriate amount of interfacial defects at the intergrains and improved carrier separation efficiency through the highly oriented interfaces. In addition, the photocatalytic performance of the TMCs could be further improved through regulation of defects by undergoing an annealing process under a redox atmosphere. This work can provide an avenue to defect engineering for improved photocatalytic performance.

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Section: Resultssupporting

confidence: 88%

Photocatalytic Properties Dependent on the Interfacial Defects of Intergrains within TiO₂ Mesocrystals

Wang

Chen

Luan

et al. 2018

Chemistry A European J

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“…The corresponding high‐resolution Ti 2p, O 1s, C 1s, and N 1s spectra of the DTMCs, g‐C 3 N 4 NSs, and 33.3 % g‐C 3 N 4 /DTMCs were then compared meticulously to gain a deep insight into the interaction between the DTMCs and g‐C 3 N 4 NSs after coupling. As illustrated in Figure a, only two major peaks centered at 458.8 and 464.5 eV are observed in the Ti 2p spectrum of the DTMCs, which can be assigned to the Ti 4+ 2p 3/2 and Ti 4+ 2p 1/2 peaks of TiO 2 , thereby confirming the absence of Ti 3+ on the surface of the sample . These two peaks are slightly shifted to the lower binding energies of 458.7 and 464.4 eV after coupling of the DTMCs with the g‐C 3 N 4 NSs.…”

Section: Resultssupporting

confidence: 54%

“…Recently, it was demonstrated that the photocatalytic performance of TiO 2 could be enhanced by fabricating mesocrystalline architectures, as these kinds of oriented superstructures arranged by TiO 2 nanocrystal building blocks possess effective conduction pathways and remarkably long‐lived charges . Subsequent studies revealed that the further introduction of Ti 3+ and oxygen vacancies (Ov) into mesocrystalline TiO 2 architectures could broaden the absorption spectrum of TiO 2 to the visible‐light region, thereby making the resultant defective TiO 2− x mesocrystals visible‐light responsive without introducing recombination centers for the photogenerated charge carriers . Accordingly, the realization of defective TiO 2− x mesocrystals (containing Ti 3+ or Ov) would lead to improved photocatalysis as a result of the synergistic effects of stronger light‐harvesting ability and improved charge‐separation efficiency of the photocatalyst.…”

Section: Introductionmentioning

confidence: 99%

“…Accordingly, the realization of defective TiO 2− x mesocrystals (containing Ti 3+ or Ov) would lead to improved photocatalysis as a result of the synergistic effects of stronger light‐harvesting ability and improved charge‐separation efficiency of the photocatalyst. Although some advances have been made in the fabrication of defective TiO 2− x mesocrystals as well as in the investigation of their photocatalytic properties, the improvement in the photocatalytic performance of defective TiO 2− x mesocrystals in practical applications is inevitably confined by the limited separation efficiency of the photogenerated charge carriers, which is the main disadvantage of TiO 2 as a single‐component photocatalyst …”

Section: Introductionmentioning

confidence: 99%

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Defective Anatase TiO_2−x Mesocrystal Growth In Situ on g‐C₃N₄ Nanosheets: Construction of 3D/2D Z‐Scheme Heterostructures for Highly Efficient Visible‐Light Photocatalysis

Tan

et al. 2018

Chemistry A European J

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Environmental remediation by employing visible-light-active semiconductor heterostructures provides effective solutions for handling emerging contaminants by a much greener and lower cost approach compared with other methods. This report demonstrates that the in situ growth of nanosized single-crystal-like defective anatase TiO mesocrystals (DTMCs) on g-C N nanosheets (NSs) can produce a 3D/2D DTMC/g-C N NS heterostructure with the two components held together by chemical bonds to form tight interfaces. This nanostructured heterostructure displayed remarkably improved photocatalytic activity toward the removal of the model pollutants Methyl Orange (MO) and Cr under visible-light irradiation in comparison with the pristine DTMC and g-C N NS components, which suggests that both the oxidation and reduction abilities of the DTMC/g-C N NSs were simultaneously enhanced after fabrication. On the basis of the results of a systematic characterization, a reasonable mechanism for the photocatalytic activity based on a direct Z-scheme heterojunction is proposed and further verified by the measurement of OH. This novel Z-scheme heterojunction endows the heterostructure with improved photogenerated electron/hole pair separation and a strong redox ability for the efficient degradation of wastewater pollutants. This work will be useful for the design and fabrication of direct Z-scheme heterostructured photocatalysts with novel architectures for applications in energy conversion and environmental remediation.

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“…Mesocrystals also permit the advantages of single crystals as well as large surface area, making them more promising in the applications of catalysis, sensing and energy storage and conversion . In our and other group's previous work, TiO 2 mesocrystals with different phase and morphology were synthesized, which exhibited superior performance in energy storage and conversion, sensing and photocatalysis . However, TiO 2 mesocrystals with tunable microporous structure have not been reported, which could be a robust structure allowing promising application in catalysis.…”

Section: Introductionmentioning

confidence: 91%

Highly Efficient Degradation of Tobacco Specific N‐Nitrosamines by TiO₂ Mesocrystals with Robust and Tailored Microporous Structure

et al. 2018

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It is essential to control tobacco specific N‐nitrosamines (TSNAs) pollution for the protection of public health, which were identified as the most abundant carcinogens in tobacco and tobacco smoke. Herein, we provide microporous TiO2 mesocrystals as a new material for the remove of TSNAs with high degradation efficiency. The anatase TiO2 mesocrystals with tunable microporous structure were synthesized by a facile method under the acid solution. The TiO2 mesocrystals were firstly used to the remove of TSNAs through photocatalytic degradation. It's exciting that TSNAs of tobacco extraction solution can be almost entirely reduced (up to 97%) by anatase TiO2 mesocrystals after 30 mins through photocatalytic degradation. Moreover, it's found that the microporous size of mesocrystals play a key role on the degradation capability. The TiO2 mesocrystals with microporous size comparable to the size of TSNAs molecule exhibit the best degradation performance. This finding offers a robust microporous material and efficient method for removing the carcinogen like TSNAs as well as other pollutants in environment.

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Anatase TiO₂ Mesocrystals: Green Synthesis, In Situ Conversion to Porous Single Crystals, and Self‐Doping Ti³⁺ for Enhanced Visible Light Driven Photocatalytic Removal of NO

Cited by 46 publications

References 70 publications

Photocatalytic Properties Dependent on the Interfacial Defects of Intergrains within TiO₂ Mesocrystals

Photocatalytic Properties Dependent on the Interfacial Defects of Intergrains within TiO₂ Mesocrystals

Defective Anatase TiO_2−x Mesocrystal Growth In Situ on g‐C₃N₄ Nanosheets: Construction of 3D/2D Z‐Scheme Heterostructures for Highly Efficient Visible‐Light Photocatalysis

Highly Efficient Degradation of Tobacco Specific N‐Nitrosamines by TiO₂ Mesocrystals with Robust and Tailored Microporous Structure

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Anatase TiO2 Mesocrystals: Green Synthesis, In Situ Conversion to Porous Single Crystals, and Self‐Doping Ti3+ for Enhanced Visible Light Driven Photocatalytic Removal of NO

Cited by 46 publications

References 70 publications

Photocatalytic Properties Dependent on the Interfacial Defects of Intergrains within TiO2 Mesocrystals

Photocatalytic Properties Dependent on the Interfacial Defects of Intergrains within TiO2 Mesocrystals

Defective Anatase TiO2−x Mesocrystal Growth In Situ on g‐C3N4 Nanosheets: Construction of 3D/2D Z‐Scheme Heterostructures for Highly Efficient Visible‐Light Photocatalysis

Highly Efficient Degradation of Tobacco Specific N‐Nitrosamines by TiO2 Mesocrystals with Robust and Tailored Microporous Structure

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Product

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About

Anatase TiO₂ Mesocrystals: Green Synthesis, In Situ Conversion to Porous Single Crystals, and Self‐Doping Ti³⁺ for Enhanced Visible Light Driven Photocatalytic Removal of NO

Photocatalytic Properties Dependent on the Interfacial Defects of Intergrains within TiO₂ Mesocrystals

Photocatalytic Properties Dependent on the Interfacial Defects of Intergrains within TiO₂ Mesocrystals

Defective Anatase TiO_2−x Mesocrystal Growth In Situ on g‐C₃N₄ Nanosheets: Construction of 3D/2D Z‐Scheme Heterostructures for Highly Efficient Visible‐Light Photocatalysis

Highly Efficient Degradation of Tobacco Specific N‐Nitrosamines by TiO₂ Mesocrystals with Robust and Tailored Microporous Structure