Synthesis of Oxygen Deficient TiO2 for Improved Photocatalytic Efficiency in Solar Radiation

Badmus, Kassim Olasunkanmi; Wewers, Francois; Al‐Abri, Mohammed; Shahbaaz, Mohd; Petrik, Leslie

doi:10.3390/catal11080904

Cited by 7 publications

(9 citation statements)

References 46 publications

(58 reference statements)

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“…This is because the oxygen deficient sites that form at the crystallite faces of the nanosheets due to imperfections in the structure, produce a band of new electronic states, in effect, lowering the band gap of the material. This effect has been seen in action previously in titania and certain bismuth titanates (Bark, 2013;Han & Bark, 2014;Choi et al, 2012;Badmus et al, 2021;Yao et al, 2020). This in turn brings the band gap of the material closer to the values of pristine bismuth titanate (Murugesan et al, 2010).…”

Section: Resultssupporting

confidence: 63%

Microwave assisted synthesis of bismuth titanate nanosheets and its photocatalytic effects

Correya¹,

Nampoori²,

Mujeeb³

2023

PeerJ Materials Science

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Bismuth titanate syntheses using wet chemical methods are comparatively time-consuming and require long durations for completion using the well-studied sol-gel method. In this work, we use microwave initiated combustion method to produce ultra-thin bismuth titanate nanosheets. This method reduces the time required for the synthesis down to minutes, when compared to hours or days in most other methods. The thickness of the synthesized sheets were tuned by adding polyethylene glycol as a capping agent, which in turn affects the band gap and subsequently, their photocatalytic properties. The samples were characterized using x-ray diffraction, transmission electron microscopy and absorption spectrophotometry. Photocatalytic effect of the synthesized bismuth titanate nanosheets on methylene blue dye also studied and variation of band gap depending on thickness of the nanosheets were observed.

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Section: Resultssupporting

confidence: 63%

Microwave assisted synthesis of bismuth titanate nanosheets and its photocatalytic effects

Correya¹,

Nampoori²,

Mujeeb³

2023

PeerJ Materials Science

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“…220 The OVs induced in TiO 2 NPs by sodium borohydride treatment caused a lower energy band gap, smaller pore sizes, and improved photocatalytic activity in orange II sodium salt degradation. 221 In another work, OVs were induced in TiO 2 films by CaH 2 as a reducing agent, resulting in a 340% photodegradation enhancement toward benzene under UV light. A band-bending model as a p−n junction between the bulk and the surface layer with OVs was confirmed by the density functional theory (DFT) calculations.…”

Section: Oxygen Vacancy (Ov)mentioning

confidence: 99%

“…Further, its high electronic energy band gap and e/h recombination are other limitations of it as a photocatalyst. One strategy to overcome these problems is producing an oxygen-deficient surface, which critically changes the band gap position and the color of catalysts, resulting in an extended absorption wavelength range. , For example, inducing OVs in black TiO 2 (B-TiO 2 ) via a facile approach introduced by Chen and co-workers significantly improved its visible–IR light absorption efficiency. The decrease in e/h recombination is due to the localized states in the bandgap induced by OVs, which act as trap centers (Figure a).…”

Section: Photodegradation On Anion Vacanciesmentioning

confidence: 99%

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A Comprehensive Review on the Boosted Effects of Anion Vacancy in the Heterogeneous Photocatalytic Degradation, Part II: Focus on Oxygen Vacancy

Rezaei,

Nezamzadeh-Ejhieh,

Massah

2024

ACS Omega

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Environmental problems, including the increasingly polluted water and the energy crisis, have led to a need to propose novel strategies/methodologies to contribute to sustainable progress and enhance human well-being. For these goals, heterogeneous semiconducting-based photocatalysis is introduced as a green, eco-friendly, cost-effective, and effective strategy. The introduction of anion vacancies in semiconductors has been wellknown as an effective strategy for considerably enhancing the photocatalytic activity of such photocatalytic systems, giving them the advantages of promoting light harvesting, facilitating photogenerated electron−hole pair separation, optimizing the electronic structure, and enhancing the yield of reactive radicals. This Review will introduce the effects of anion vacancy-dominated photodegradation systems. Then, their mechanism will illustrate how an anion vacancy changes the photodegradation pathway to enhance the degradation efficiency toward pollutants and the overall photocatalytic performance. Specifically, the vacancy defect types and the methods of tailoring vacancies will be briefly illustrated, and this part of the Review will focus on the oxygen vacancy (OV) and its recent advances. The challenges and development issues for engineered vacancy defects in photocatalysts will also be discussed for practical applications and to provide a promising research direction. Finally, some prospects for this emerging field will be proposed and suggested. All permission numbers for adopted figures from the literature are summarized in a separate file for the Editor.

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“…Substantial work has been performed over the last several decades to develop novel materials with an aim to improve photocatalytic activity or to find additional ways to improve the effectiveness of existing photocatalysts [10,11]. It has now been established that by controlling photocatalyst features, such as morphology, shape, size, surface area and its functionalization, and so forth, the photocatalytic activity can be significantly improved [12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Role of Post-Hydrothermal Treatment on the Microstructures and Photocatalytic Activity of TiO2-Based Nanotubes

et al. 2022

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The present study demonstrates the thermal stability and photocatalytic activity of TiO2-based nanotubes with respect to post-hydrothermal treatment. Titanate nanotubes were synthesized by adapting an alkali hydrothermal method from TiO2 sol using NaOH as a catalyst. The effect of post-hydrothermal heating on the properties—such as structure, morphology, textural properties, and activity—of as-synthesized one-dimensional titania nanostructure is investigated in detail. The characterizations are carried out using SEM, EDX, TEM, XRD, and a BET surface area analyzer. When heated in the presence of water in an autoclave, the protonated titanate phase of the nanotubes converts to anatase phase. Meanwhile, the tubular morphology is gradually lost as the post-hydrothermal heating duration increases. The photocatalytic activity was assessed utilizing the photo-oxidation of an amaranth dye. It is discerned that the as-prepared nanotubes are photocatalytically inactive but become active after post-hydrothermal processing. The activity trend follows the formation of the active phase—the titanate phase crystallizes into a photocatalytically-active anatase phase during post-hydrothermal heating. The effect of experimental parameters, such as reaction pH, dye concentration, and amount of catalyst, on the dye removal is studied. The findings also highlight that the role of holes/OH• is more prominent as compared to conduction band electron/O2−• for the removal of the dye. In addition, the photocatalyst exhibited excellent stability and reusability.

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Synthesis of Oxygen Deficient TiO2 for Improved Photocatalytic Efficiency in Solar Radiation

Cited by 7 publications

References 46 publications

Microwave assisted synthesis of bismuth titanate nanosheets and its photocatalytic effects

Microwave assisted synthesis of bismuth titanate nanosheets and its photocatalytic effects

A Comprehensive Review on the Boosted Effects of Anion Vacancy in the Heterogeneous Photocatalytic Degradation, Part II: Focus on Oxygen Vacancy

Role of Post-Hydrothermal Treatment on the Microstructures and Photocatalytic Activity of TiO2-Based Nanotubes

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