Methanol Photo-Oxidation on Rutile TiO<sub>2</sub> Nanowires: Probing Reaction Pathways on Complex Materials

Crampton, Andrew S.; Cai, Lili; Janvelyan, Nare; Zheng, Xiaolin; Friend, C. M.

doi:10.1021/acs.jpcc.7b01385

Cited by 26 publications

(38 citation statements)

References 52 publications

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“…The results from the temperature‐programmed reaction experiments suggested that the methoxy was transformed through photo‐oxidation to HCHO and HCOOCH 3 . Next, a similar phenomenon was observed on the rutile TiO 2 nanowires in the methanol photo‐oxidation [26] …”

Section: Reaction Pathway Of Methanolsupporting

confidence: 67%

Recent Advances in Aerobic Photo‐Oxidation of Methanol to Valuable Chemicals

et al. 2021

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The oxidation of photocatalytic methanol into valuable chemicals is of considerable importance to the growth of the chemical industry. TiO2 has been proven to be a catalyst for methanol photocatalytic oxidation to valued chemicals (e. g. methyl formate and dimethoxymethane) at room temperature with an inferior activity. Recently, it has become a hot research topic due to its low interaction temperature with fewer by‐products. Further, the introduction of IB metal particles (i. e. Cu, Ag, and Au) upon the surface of titania can drastically enhance the catalytic activity in the photo‐oxidation, which is mainly due to metal nanoparticles can optimally enhance the efficiency of the isolation of photo‐generated holes and electrons as well as dissociate oxygen molecules. Herein, we review recent progress of the photocatalysis of methanol toward the production of chemicals over different photocatalysts (e. g., TiO2P25, M NPs/TiO2, where M=CuO, Ag2O, Au, PtO, etc). Moreover, we also glean an understanding of the catalytic mechanism and conversion pathway at play, which is confirmed by STM, in‐situ ATR‐IR, DFT simulations, etc. The reaction pathway of photo‐oxidation is different from that in the thermal process. A pivotal intermediate is absorbed formaldehyde (HCHO*), which is formed via an oxidative dehydrogenation over the redox sites of catalysts. Then the generated HCHO* directly reacts with neighboring methanol to give methyl formate (on redox sites) and dimethoxymethane (on acidic sites through a scrambling movement).

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Section: Reaction Pathway Of Methanolsupporting

confidence: 67%

Recent Advances in Aerobic Photo‐Oxidation of Methanol to Valuable Chemicals

et al. 2021

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“…The reactivity measurements were carried out in an ultrahigh vacuum (UHV) apparatus with a base pressure of < 8×10 -11 Torr, which has been described in detail before. [27][28] The α-Fe 2 O 3 (0001) single crystal (SurfaceNet GmbH) is mounted as described previously and the sample temperature can be controlled between 130 K and 1000 3 K. 28 Crystal cleaning is accomplished by Ar + -ion sputtering (1.0 keV, 1.0 × 10 -5 Torr, 15 min, 13 µA sample current) and annealing in vacuo (1000 K, 15 min). Before every experiment, 3 cycles of sputtering and annealing are performed to remove all potential contaminants.…”

Section: Methodsmentioning

confidence: 99%

“…Temperature-programmed desorption and reaction measurements were performed with the crystal in line-of-sight of the quadrupole mass spectrometer with a constant heating rate of 1 K/s. The masses monitored were m/e 2, 15,16,18,27,28,29,30,31,32,33,35,44,46,47,79,124. The gaseous products were identified by their fragmentation patterns and quantified by correcting for mass spectrometer sensitivity the ionization cross sections.…”

Section: Methodsmentioning

confidence: 99%

Facile Decomposition of Organophosphonates by Dual Lewis Sites on a Fe₃O₄(111) Film

Walenta

Tesvara

et al. 2020

J. Phys. Chem. C

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Dimethyl methylphosphonate (DMMP) is used as a simulant for toxic nerve agents and pesticides, rendering the understanding of surface chemistry requisite to design effective materials for organophosphonate (catalytic) decomposition at room temperature. In this work, DMMP surface chemistry is studied on an iron oxide surface in a very well-defined environment using temperature-programmed reaction, isotopic labeling, scanning tunneling microscopy, X-ray photoelectron spectroscopy, and density functional theory. DMMP, (CH 3 O) 2 P(O)(CH 3 ), dissociates to yield methoxy and methyl methylphosphonate, (CH 3 O)-P(O) 2 (CH 3 ), on the surface at room temperature. At higher temperatures, dimethyl ether is formed via intramolecular reaction, followed by the formation of formaldehyde and methanol from adsorbed methoxy decomposition during temperature-programmed reaction. Ultimately, stochiometric combustion at 870 K produces CO, H 2 CO, and CO 2 via reaction with lattice oxygen, with PO x remaining on the surface. Excess oxygen from the bulk is required to drive these higher temperature pathways. Neither hydrolysis nor a photoreaction is observed, when exposing the adsorbed DMMP to water or light above the band gap, respectively. No evolution of P-containing species is detected, indicating efficient trapping of this contaminant. The activity for DMMP decomposition at room temperature is reduced by the accumulation of PO x . However, a significant amount of reaction persists after multiple temperature-programmed reaction experiments.

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“…With the introduction of O 2 ,O 2 -promoted CH 3 OH(a) dissociation to CH 3 O(a) [27] was observed to occur only slightly for all TiO 2 NCs under the dark condition (Supporting Information, Figure S10). Upon UV light illumination, the absorption feature of photoexcited electrons greatly decreased with the O 2 concentration increasing and became similar for all TiO 2 NCs at an oxygen concentration of 10 % (Supporting Information, Figure S11), demonstrating the efficient scavenging of photoexcited electrons by O 2 .C onsequently,p hotocatalytic oxidation of adsorbed CH 3 O(a) species to HCOO(a), HCHO(a) and carbonate species occur on all TiO 2 NCs,a se videnced by the appearance of the vibrational features of various types of HCOO(a) and carbonate species and HCHO(a) species [13,28] at the expense of those of CH 3 O(a) species (Supporting Information, Figure S12, Table S1).…”

Section: Forschungsartikelmentioning

confidence: 99%

Site Sensitivity of Interfacial Charge Transfer and Photocatalytic Efficiency in Photocatalysis: Methanol Oxidation on Anatase TiO₂ Nanocrystals

Zhang

et al. 2021

Angewandte Chemie

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Photocatalytic oxidation of methanol on various anatase TiO2 nanocrystals was studied by in situ and time‐resolved characterizations and DFT calculations. Surface site and resulting surface adsorbates affect the surface band bending/bulk‐to‐surface charge migration processes and interfacial electronic structure/interfacial charge transfer processes. TiO2 nanocrystals predominantly enclosed by the {001} facets expose a high density of reactive fourfold‐coordinated Ti sites (Ti4c) at which CH3OH molecules dissociate to form the CH3O adsorbate (CH3O(a)Ti4c). CH3O(a)Ti4c localized density of states are almost at the valence band maximum of TiO2 surface, facilitating the interfacial hole transfer process; CH3O(a)Ti4c with a high coverage promotes upward surface band bending, facilitating bulk‐to‐surface hole migration. CH3O(a)Ti4c exhibits the highest photocatalytic oxidation rate constant. TiO2 nanocrystals enclosed by the {001} facets are most active in photocatalytic methanol oxidation.

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Methanol Photo-Oxidation on Rutile TiO₂ Nanowires: Probing Reaction Pathways on Complex Materials

Cited by 26 publications

References 52 publications

Recent Advances in Aerobic Photo‐Oxidation of Methanol to Valuable Chemicals

Recent Advances in Aerobic Photo‐Oxidation of Methanol to Valuable Chemicals

Facile Decomposition of Organophosphonates by Dual Lewis Sites on a Fe₃O₄(111) Film

Site Sensitivity of Interfacial Charge Transfer and Photocatalytic Efficiency in Photocatalysis: Methanol Oxidation on Anatase TiO₂ Nanocrystals

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Methanol Photo-Oxidation on Rutile TiO2 Nanowires: Probing Reaction Pathways on Complex Materials

Cited by 26 publications

References 52 publications

Recent Advances in Aerobic Photo‐Oxidation of Methanol to Valuable Chemicals

Recent Advances in Aerobic Photo‐Oxidation of Methanol to Valuable Chemicals

Facile Decomposition of Organophosphonates by Dual Lewis Sites on a Fe3O4(111) Film

Site Sensitivity of Interfacial Charge Transfer and Photocatalytic Efficiency in Photocatalysis: Methanol Oxidation on Anatase TiO2 Nanocrystals

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Product

Resources

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Methanol Photo-Oxidation on Rutile TiO₂ Nanowires: Probing Reaction Pathways on Complex Materials

Facile Decomposition of Organophosphonates by Dual Lewis Sites on a Fe₃O₄(111) Film

Site Sensitivity of Interfacial Charge Transfer and Photocatalytic Efficiency in Photocatalysis: Methanol Oxidation on Anatase TiO₂ Nanocrystals