Facet-Dependent Photoelectrochemical Performance of TiO<sub>2</sub> Nanostructures: An Experimental and Computational Study

Li, Chuanhao; Koenigsmann, Christopher; Ding, Wendu; Rudshteyn, Benjamin; Yang, Ke; Regan, Kevin P.; Konezny, Steven J.; Batista, Víctor S.; Brudvig, Gary W.; Schmuttenmaer, Charles A.; Kim, Jae Hong

doi:10.1021/ja5111078

Cited by 239 publications

(198 citation statements)

References 59 publications

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“…64 Moreover, the first-principles studies also indicate that the adsorption of gold on TiO 2 (001) is much stronger than that on the (101) surface. 19 In addition, TiO 2 /graphene composites have a higher photocatalytic activity compared with the P25 under UV light due to the effective exposure of highly reactive (001) surface.…”

Section: ■ Materials and Methodsmentioning

confidence: 99%

Roles of Crystal Surface in Pt-Loaded Titania for Photocatalytic Conversion of Organic Pollutants: A First-Principle Theoretical Calculation

Chen

Wang

et al. 2015

ACS Appl. Mater. Interfaces

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Titania modified with nanosized metallic clusters is found to substantially enhance its photocatalytic capacity for renewable energy generation and environmental purification, but the underlying mechanism, especially the roles of crystal surface in noble-metal-loaded TiO2, remain unclear. In this work, such roles in the Pt-loaded anatase TiO2 for the photocatalytic conversion of nitrobenzene (NB), a model pollutant, are explored by first-principle calculations. The theoretical calculations reveal that the Pt-TiO2 complex has a higher catalytic activity toward NB conversion than pure Pt clusters, and the (001) facets of TiO2 in this complex tend to accumulate more positively charged holes and thus have a higher photocatalytic activity than the (101) facets. Furthermore, the thermodynamic and kinetic results also show that the Pt cluster loaded on the (001) surface of anatase TiO2 is favored for NB conversion in the photooxidation pathway. This work deepens our fundamental understanding on the evolution of molecule-photocatalyst interface and provides implications for designing and preparing photocatalysts.

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Section: ■ Materials and Methodsmentioning

confidence: 99%

Roles of Crystal Surface in Pt-Loaded Titania for Photocatalytic Conversion of Organic Pollutants: A First-Principle Theoretical Calculation

Chen

Wang

et al. 2015

ACS Appl. Mater. Interfaces

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“…To demonstrate that these materials are suitable for catalytic applications, we used them as a catalyst for the photodegradation of MO, a dye commonly used in such studies [36]. Importantly for photocatalysis, the TiO 2 on these particles is predominantly anatase (see above), which performs better as a photocatalyst compared to other phases due to slower charge recombination and greater electron mobility [36][37][38].…”

Section: Photocatalytic Degradation Of Methyl Orange (Mo)mentioning

confidence: 99%

“…Importantly for photocatalysis, the TiO 2 on these particles is predominantly anatase (see above), which performs better as a photocatalyst compared to other phases due to slower charge recombination and greater electron mobility [36][37][38]. To showcase the dimensions of the composite particles -relatively large compared to the TiO 2 nanocrystals themselves -we ran these experiments in a miniature packed-bed reactor.…”

Section: Photocatalytic Degradation Of Methyl Orange (Mo)mentioning

confidence: 99%

Flow-Based Surface Decoration of Microparticles with Titania and Other Transition Metal Oxide Nanoparticles

et al. 2016

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We present a rapid approach for forming monodisperse silica microcapsules decorated with metal oxide nanoparticles; the silica-metal oxide composites have a hierarchical architecture and a range of compositions. The details of the method were defined using titania precursors. Silica capsules containing low concentrations of titania (<1 wt. %) were produced via an interfacial reaction using a simple mesofluidic T-junction droplet generator. Increasing the titania content of the capsules was achieved using two related, flow-based postsynthetic approaches. In the first approach, a precursor solution containing titanium alkoxides was flowed through a packed-bed of capsules. The second approach provided the highest concentration of titania (3.5 wt. %) and was achieved by evaporating titanium precursor solutions onto a capsule packed-bed using air flow to accelerate evaporation. Decorated capsules, regardless of the method, were annealed to improve the titania crystallinity and analyzed by optical microscopy, scanning electron microscopy (SEM), transmission electron microscopy (TEM), energy dispersive X-ray spectroscopy (EDX), powder X-ray diffraction (PXRD), and Fourier transform infrared (FT-IR) spectroscopy. The photocatalytic properties were then compared to a commercial nanoparticulate titania, which the microcapsule-supported titania outperformed in terms of rate of degradation of an organic dye and recyclability. Finally, the generality of the flow-based surface decoration procedures was demonstrated by synthesizing several composite transition metal oxide-silica microparticle materials.

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“…In this regard, the work of Yang et al [11] is greatly noteworthy: they, for the first time, demonstrated that morphological control was possible using hydrofluoric acid as a shape-controlling agent. This work enables a variety of particle shapes to be tested in PC and to be compared in terms of activities [12][13][14][15][16][17]. These experiments have led to the interesting consensus that reduction and oxidation reactions preferably occur on different facets, i.e., reductions on (100)/(101) and oxidations on (001), respectively; now, these results require a fundamental understanding of their origin.…”

Section: Introductionmentioning

confidence: 99%

Dissimilar anisotropy of electron versus hole bulk transport in anatase TiO2 : Implications for photocatalysis

et al. 2017

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Recent studies on crystal facet manipulation of anatase TiO 2 in photocatalysis have revealed that reduction and oxidation reactions preferably occur on (100)/(101) and (001) facets, respectively; however, a fundamental understanding of their origin is lacking. Here, as a result of first-principles calculations, we suggest that a dissimilar trend in the anisotropy of electron vs hole bulk transport in anatase TiO 2 can be a dominant underlying mechanism for the difference in photochemical activity. Photoexcited electrons and holes are driven to different facets, i.e., electrons on (100)/(101) and holes on (001), leading to the observed preference for either reduction or oxidation. This trend of electrons vs holes found in pure TiO 2 applies even for cases where a variety of dopants or defects is introduced.

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Facet-Dependent Photoelectrochemical Performance of TiO₂ Nanostructures: An Experimental and Computational Study

Cited by 239 publications

References 59 publications

Roles of Crystal Surface in Pt-Loaded Titania for Photocatalytic Conversion of Organic Pollutants: A First-Principle Theoretical Calculation

Roles of Crystal Surface in Pt-Loaded Titania for Photocatalytic Conversion of Organic Pollutants: A First-Principle Theoretical Calculation

Flow-Based Surface Decoration of Microparticles with Titania and Other Transition Metal Oxide Nanoparticles

Dissimilar anisotropy of electron versus hole bulk transport in anatase TiO2 : Implications for photocatalysis

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Facet-Dependent Photoelectrochemical Performance of TiO2 Nanostructures: An Experimental and Computational Study

Cited by 239 publications

References 59 publications

Roles of Crystal Surface in Pt-Loaded Titania for Photocatalytic Conversion of Organic Pollutants: A First-Principle Theoretical Calculation

Roles of Crystal Surface in Pt-Loaded Titania for Photocatalytic Conversion of Organic Pollutants: A First-Principle Theoretical Calculation

Flow-Based Surface Decoration of Microparticles with Titania and Other Transition Metal Oxide Nanoparticles

Dissimilar anisotropy of electron versus hole bulk transport in anatase TiO2 : Implications for photocatalysis

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Facet-Dependent Photoelectrochemical Performance of TiO₂ Nanostructures: An Experimental and Computational Study