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Journal ArticleDOI

Structural evolution in Pt/Ga-Zn-oxynitride catalysts for photocatalytic reforming of methanol

ÿdám Vass1, Zoltán Pászti1, Szabolcs Bálint1, Péter Németh1, Gábor P. Szijjártó1, András Tompos1, Emília Tálas1 
Hungarian Academy of Sciences1
01 Nov 2016-Materials Research Bulletin (Pergamon)-Vol. 83, pp 65-76
TL;DR: In this paper, it was demonstrated by X-ray diffraction (XRD), transmission electron microscopy (TEM) and Xray photoelectron spectroscopy (XPS) that during oxidative activation the oxynitride started to transform into a nitrogen-free Zn-containing Ga- oxyhydroxide.
About: This article is published in Materials Research Bulletin.The article was published on 2016-11-01 and is currently open access. It has received 9 citations till now. The article focuses on the topics: Catalysis & Calcination.

Summary (1 min read)

Jump to: [Introduction][3. Results and discussion] and [4. Conclusion]

Introduction

  • Photocatalytic hydrogen production is a promising approach for storing solar energy in chemical form.
  • The Ga-Zn-oxynitride ((Ga1-xZnx)(N,O)) structure can be related to the GaN-ZnO solid solution structure by incorporation of more O to the N sites and compensating vacancies to the cationic sites, resulting in an imperfect wurtzite-type material.
  • This co-catalysts/semiconductor system is less effective in the methanol photocatalytic reforming reaction [31].
  • Double distilled water (18 MΩ) was used in every experiments.
  • Energy Dispersive X-ray Spectrometry (EDX) analysis was performed by an INCA (Oxford Instruments Ltd.) detector and an INCA Energy software package attached to a ZEISS EVO 40XVP Scanning Electron Microscope (accelerating voltage: 20kV, Wfilament, working distance 10 mm).

3. Results and discussion

  • All of the samples recovered after high temperature nitridation, obtained either from the precipitates or from the oxide mixtures, had a color of dark yellow to orange.
  • The Zn retention during the nitridation was larger in the samples obtained from precipitates than those from oxides (cf. Zn/Ganom and Zn/GaEDX values in Table 2).

4. Conclusion

  • Ga-Zn-based photocatalysts were prepared by high temperature nitridation of either Ga-Zn-hydroxide-like precipitates obtained from nitrates or mixtures of Ga2O3 and ZnO.
  • A combination of bulk and surface characterization methods revealed that irrespective to the starting material, the product of the synthesis was a wurtzite-like Ga-Zn-oxynitride phase.
  • This transformation became complete during the photocatalytic methanol reforming reaction, accompanied by reduction of the Pt co-catalyst until the fully metallic state.
  • Eventually, it was demonstrated that Pt was an effective catalyst in surface transformation of the oxynitride to oxyhydroxide both by thermal and photo activated processes.
  • The finding that, irrespectively to synthesis routes of the photocatalyst, metallic Pt- loaded Ga-Zn-oxyhydroxide formed under the reaction conditions suggests that this Ptoxyhydroxide system could play an important role in the photocatalytic reaction.

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Citations
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Journal ArticleDOI
ZnO/ZnGaNO heterostructure with enhanced photocatalytic properties prepared from a LDH precursor using a coprecipitation method

[...]

Yan-Ling Hu1, Zhi Wu2, Xianting Zheng1, Nan Lin1, Yang Youhuang1, Juan Zuo1, Dongya Sun1, Chunhai Jiang1, Lan Sun2, Changjian Lin2, Yongsheng Fu3 
Xiamen University of Technology1, Xiamen University2, Nanjing University of Science and Technology3
30 Jun 2017-Journal of Alloys and Compounds
TL;DR: Wurtzite Zinc-gallium oxynitrides (ZnGaNO) particles were synthesized by nitridation of Zn/Ga/CO3 layered double hydroxides (LDHs) using three different coprecipitation methods, called Decreasing-pH method, Constant-p H method, and Increasing-PH Method, respectively as discussed by the authors.

20 citations

Journal ArticleDOI
Study of PtOx/TiO2 Photocatalysts in the Photocatalytic Reforming of Glycerol: The Role of Co-Catalyst Formation

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Katalin Majrik1, Zoltán Pászti1, László Korecz1, László Trif1, Attila Domján1, Giuseppe Bonura, Catia Cannilla, Francesco Frusteri, András Tompos1, Emília Tálas1 
Hungarian Academy of Sciences1
10 Oct 2018-Materials
TL;DR: Platinum was more easily reducible in all of the P25 supported samples compared to those obtained from the more water-retentive homemade TiO2 and the highest H2 evolution rate was observed over P25 based samples and the H2 treatment resulted in more active samples than the other co-catalyst formation methods.
Abstract: In this study, relationships between preparation conditions, structure, and activity of Pt-containing TiO₂ photocatalysts in photoinduced reforming of glycerol for H₂ production were explored. Commercial Aerolyst® TiO₂ (P25) and homemade TiO₂ prepared by precipitation-aging method were used as semiconductors. Pt co-catalysts were prepared by incipient wetness impregnation from aqueous solution of Pt(NH₃)₄(NO₃)₂ and activated by calcination, high temperature hydrogen, or nitrogen treatments. The chemico-physical and structural properties were evaluated by XRD, ¹H MAS NMR, ESR, XPS, TG-MS and TEM. The highest H₂ evolution rate was observed over P25 based samples and the H₂ treatment resulted in more active samples than the other co-catalyst formation methods. In all calcined samples, reduction of Pt occurred during the photocatalytic reaction. Platinum was more easily reducible in all of the P25 supported samples compared to those obtained from the more water-retentive homemade TiO₂. This result was related to the negative effect of the adsorbed water content of the homemade TiO₂ on Pt reduction and on particle growth during co-catalyst formation.

17 citations

Cites background from "Structural evolution in Pt/Ga-Zn-ox..."

  • ...In case of co-catalyst formation by calcination, in situ reduction of platinum has been found during the photoinduced H2 production from methanol-water reaction mixture [29,42]....

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  • ...formation by calcination was favorable for the hydrogen production in the photocatalytic reaction of methanol [29,42]....

    [...]

Journal ArticleDOI
Graphite Oxide-TiO2 Nanocomposite Type Photocatalyst for Methanol Photocatalytic Reforming Reaction

[...]

Katalin Majrik1, Árpád Turcsányi2, Zoltán Pászti1, Tamás Szabó2, Attila Domján1, Judith Mihály1, András Tompos1, Imre Dékány2, Emília Tálas1 
Hungarian Academy of Sciences1, University of Szeged2
11 May 2018-Topics in Catalysis
TL;DR: In this article, a graphite-oxide/TiO2 composite material was prepared by heterocoagulation method from Brodie's graphiteoxide (GO) in order to test them as catalysts in the methanol photocatalytic reforming reaction in liquid phase.
Abstract: Graphite-oxide/TiO2 (GO/TiO2) composite materials were prepared by heterocoagulation method from Brodie’s graphite-oxide (GO) in order to test them as catalysts in the methanol photocatalytic reforming reaction in liquid phase. The preparation of the composite itself resulted in only little changes in the structure of GO as it was indicated by attenuated total reflection infrared (ATR-IR) and 13C magic-angle spinning nuclear magnetic resonance (13C MAS NMR) spectroscopic measurements. However, during the photocatalytic reaction, all of the GO/TiO2 samples darkened strongly indicating structural changes of GO. X-ray photoelectron spectroscopy along with NMR confirmed the loss of oxygen functionalities and emergence of graphitic species in the samples recovered from the photocatalytic reaction. Model experiments were designed to identify the key factors determining the activity of the GO/TiO2 derived photocatalysts. It was found that the emergence of a pronounced coupling between TiO2 and the graphite-like carbonaceous material is the most important contribution to get active and stable photocatalysts.

12 citations

Cites background from "Structural evolution in Pt/Ga-Zn-ox..."

  • ...Our recent results revealed that the working conditions of the methanol photocatalytic reforming reaction may result in significant changes of the structure of certain metal oxide–semiconductor catalyst systems involving both the semiconductor [54] and co-catalyst [15] compared to the fresh state....

    [...]

Journal ArticleDOI
Nanostructured metal nitrides for photocatalysts

[...]

Tingke Rao1, Wen Cai2, Han Zhang1, Wugang Liao1
Shenzhen University1, Xi'an Jiaotong University2
29 Apr 2021-Journal of Materials Chemistry C
TL;DR: A broad overview of the development of photocatalysts for the generation of H2 and CO2 reduction reaction, summarizing the current state of work focusing on the recent progress in light-induced overall water splitting and CO 2 reduction on metal nitride photocatalyst.
Abstract: Recently, metal nitrides (MNs) have received renewed attention due to their potential as catalytic materials in energy transformations, with water spitting and CO2 reduction being the most studied reactions Reactions considered in this review are limited to photocatalysis Moreover, the morphology, size, defects and nanostructured construction of MNs are demonstrated to be critical factors in their catalytic efficiency, emphasizing the importance of their synthetic method Mono, binary, ternary and doped nanostructured MN materials have been synthesized and evaluated as photocatalysts The latest research is focused on the development of new synthetic methods, cocatalysts, and constructure design, aiming to achieve improved activity, selectivity, and stability This review provides a broad overview of the development of photocatalysts for the generation of H2 and CO2 reduction reaction, summarizing the current state of work focusing on the recent progress in light-induced overall water splitting and CO2 reduction on metal nitride photocatalysts

11 citations

Journal ArticleDOI
Multimetallic Oxynitrides Nanoparticles for a New Generation of Photocatalysts

[...]

Tingke Rao1, Maria Luisa Saladino2, Yuanxing Fang3, Xinchen Wang3, Cristina Giordano1 
Queen Mary University of London1, University of Palermo2, Fuzhou University3
20 Dec 2019-Chemistry: A European Journal
TL;DR: The synthesis presented here allows the preparation of small nanoparticles (less than 20 nm in diameter), well-defined in size and shape, yet highly crystalline and the highest surface area reported so far (up to ~80 m 2 /g).
Abstract: A versatile synthetic strategy for the preparation of multimetallic oxynitrides has been designed and here exemplarily discussed considering the preparation of nanoscaled zinc-gallium oxynitrides and zinc-gallium-indium oxynitrides, two important photocatalysts of new generation, which proved to be active in key energy related processes from pollutant decomposition to overall water splitting. The synthesis presented here allows the preparation of small nanoparticles (less than 20 nm in average diameter), well-defined in size and shape, yet highly crystalline and with the highest surface area reported so far (up to 80 m2 g-1 ). X-ray diffraction studies show that the final material is not a mixture of single oxides but a distinctive compound. The photocatalytic properties of the oxynitrides have been tested towards the decomposition of an organic dye (as a model reaction for the decomposition of air pollutants), showing better photocatalytic performances than the corresponding pure phases (reaction constant 0.22 h-1 ), whereas almost no reaction was observed in absence of catalyst or in the dark. The photocatalysts have been also tested for H2 evolution (semi-reaction of the water splitting process) with results comparable to the best literature values but leaving room for further improvement.

8 citations

References
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Characterization of nitride coatings by XPS

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Imre Bertóti1
Hungarian Academy of Sciences1
01 Mar 2002-Surface & Coatings Technology
TL;DR: In this article, the effect of ion beam-induced compositional and structural changes and formation of superstoichiometric nitride compounds was analyzed in detail by X-ray photoelectron spectroscopy (XPS).
Abstract: Nitride coatings have been used in numerous applications to increase the hardness and improve the wear and corrosion resistance of structural materials, as well as in various high-tech areas, where their functional rather than mechanical properties are of prime importance. Performance of these coatings is equally dependent on their chemical composition and long-range crystalline structure, as well as on the nature and amount of impurities and intergranular interactions. Significant improvement in the mechanical properties has recently been achieved with multi-component superlattice and nanocomposite nitride coatings. In the case of such multi-component systems, not only is close control of the elemental composition (stoichiometry) necessary to optimize the properties of the coatings, but the influence of chemical bond formation between the components is also of prime importance. Special care needs to be taken when non-equilibrium preparation conditions, activation of CVD and PVD by plasmas or energetic particle beams are applied, occasionally leading to unpredicted deviations, both in composition and structure. As is highlighted in this paper, nitride coatings or nitrided surfaces can be analyzed in detail by X-ray photoelectron spectroscopy (XPS) due to its excellent element selectivity, quantitative character and high surface sensitivity. More importantly, XPS reflects the atomic scale chemical interactions, i.e. the bonds between neighboring atoms, and thus it also provides reliable structural characteristics for amorphous or nano-crystalline coatings of complex composition, for which application of diffraction techniques is not straightforward. A number of examples of the application of XPS are given for various types of nitride coatings, including interstitial compounds, such as TiN, CrNx, etc., as well as compounds with predominantly covalent bonding, such as AlN, GaN, Si3N4 and CNx. Special emphasis is placed on ion beam-induced compositional and structural changes and to the formation of ‘superstoichiometric’ TiN1+x, ZrN1+x compounds.

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Effect of post-calcination on photocatalytic activity of (Ga1−xZnx)(N1−xOx) solid solution for overall water splitting under visible light

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Kazuhiko Maeda1, Kentaro Teramura1, Kazunari Domen1
University of Tokyo1
10 Mar 2008-Journal of Catalysis
TL;DR: In this article, post-calcination at moderate temperature is found to be effective for improving the activity of (Ga1−xZnx) as a photocatalyst for overall water splitting under visible light.

273 citations

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Different Sized Platinum Nanoparticles Supported on Carbon: An XPS Study on These Methanol Oxidation Catalysts

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and Fatih Şen1, Gülsün Gökaǧaç1
Middle East Technical University1
28 Mar 2007-Journal of Physical Chemistry C
TL;DR: Different sized platinum nanoparticles on carbon supports have been prepared using PtCl4 and H2PtCl6 as starting materials and 1-hexanethiol as a surfactant and then heated to 200 °C (catalyst Ib and catalysts IIb) for 4 hours under argon gas as mentioned in this paper.
Abstract: Different sized platinum nanoparticles on carbon supports have been prepared using PtCl4 (catalyst Ia) and H2PtCl6 (catalyst IIa) as starting materials and 1-hexanethiol as a surfactant and then heated to 200 °C (catalyst Ib and catalysts IIb), 300 °C (catalyst Ic and catalysts IIc), and 400 °C (catalyst Id and catalysts IId) for 4 h under argon gas. All the catalysts showed a face-centered cubic (fcc) crystal structure as determined by X-ray diffraction. X-ray diffractograms and transmission electron microscopy results reveal that the platinum nanoparticles are homogeneously dispersed on the carbon support, exhibit narrow particle size distribution, and show no appreciable aggregation. The average platinum particle size as determined from XRD data was found to be ∼2.00, ∼2.56, ∼4.23, ∼4.52, ∼2.13, ∼2.77, ∼4.29, and ∼4.62 nm for catalysts Ia−d and IIa−d, respectively. X-ray photoelectron spectra of all the catalysts indicated that most (>70%) of the platinum nanoparticles have an oxidation state of zero a...

239 citations

Journal ArticleDOI
Recent progress in the development of (oxy)nitride photocatalysts for water splitting under visible-light irradiation ☆

[...]

Yosuke Moriya1, Tsuyoshi Takata, Kazunari Domen1
University of Tokyo1
01 Jul 2013-Coordination Chemistry Reviews
TL;DR: In this paper, the authors provide a summary of recent progress in the development of visible-light-responsive (oxy)nitride photocatalysts, especially from the aspect of syntheses and post-treatments to obtain high-quality crystals with few defects.

236 citations

Journal ArticleDOI
Pt and Au/TiO2 photocatalysts for methanol reforming: Role of metal nanoparticles in tuning charge trapping properties and photoefficiency

[...]

Alberto Naldoni, Massimiliano D’Arienzo1, Marco Altomare2, Marcello Marelli, Roberto Scotti1, Franca Morazzoni1, Elena Selli2, Vladimiro Dal Santo 
University of Milano-Bicocca1, University of Milan2
07 Feb 2013-Applied Catalysis B-environmental
TL;DR: In this paper, an anatase loaded with Au and Pt nanoparticles by an impregnation-reduction method was investigated as for morphological, electronic (XPS) and photocatalytic properties in hydrogen production by methanol photoreforming.
Abstract: Metal-loaded TiO 2 is, by far, one of the most important class of photocatalysts in hydrogen production through photoreforming of organics and water photosplitting. In this study anatase loaded with Au and Pt nanoparticles (Au/TiO 2 and Pt/TiO 2 ) by an impregnation-reduction method was investigated as for morphological, electronic (XPS) and photocatalytic properties in hydrogen production by methanol photoreforming. The electron and hole trapping centers, Ti 3+ and O − , respectively, formed under UV–vis irradiation of the photocatalysts, were studied by in situ electron spin resonance (ESR) spectroscopy. The nature of the loaded metal affected both the H 2 evolution rate and the distribution of the methanol oxidation products. The better performance of Pt/TiO 2 is attributable to the greater ability of Pt with respect to Au to act as electron sink, slowering the recombination of photoproduced electron–hole couples. Direct evidence of this effect was obtained by ESR analysis, showing that the amount of Ti 3+ active sites follows the order TiO 2 > Au/TiO 2 ≫ Pt/TiO 2 , thus confirming easier electron transfer from Ti 3+ to Pt, where the H + reduction to H 2 occurs.

207 citations

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Frequently Asked Questions (1)
Q1. What are the contributions in "Structural evolution in pt/ga-zn-oxynitride catalysts for photocatalytic reforming of methanol" ?

In this paper, the structural evolution in Pt/Ga-Zn-oxynitrides catalysts for photocatalytic reforming of methanol was studied.