2024/03/15 更新

写真a

サミエスケ ガボー アルウェド
SAMJESKE Gabor Arwed
SAMJESKE Gabor Arwed
所属
大学院理学研究科 理学専攻 化学 教授
大学院担当
大学院理学研究科
学部担当
理学部 化学科
職名
教授
外部リンク

学位 1

  1. Dr. rer. nat. ( 2003年5月   Bonn University ) 

研究キーワード 1

  1. fuel cell catalysts, catalyst synthesis, XAFS

経歴 1

  1. 電気通信大学 燃料電池イノベーション研究センター   特任教授

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所属学協会 5

  1. American Chemical Society

  2. 電気化学会

  3. 日本化学会

  4. International Society of Electrochemistry

  5. Electrochemical Society

 

論文 34

  1. Variation of Local Structure and Reactivity of Pt/C Catalyst for Accelerated Degradation Test of Polymer Electrolyte Fuel Cell Visualized by Operando 3D CT-XAFS Imaging 査読有り 国際誌

    Matsui, H; Ishiguro, N; Tan, YN; Maejima, N; Muramoto, Y; Uruga, T; Higashi, K; Nguyen, DN; Dam, HC; Samjeské, G; Tada, M

    CHEMNANOMAT   8 巻 ( 4 )   2022年4月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:ChemNanoMat  

    In practical applications of polymer electrolyte fuel cells (PEFC), the wide variations of local structures and environment of electrocatalysts bring about complex reaction behaviours inside a membrane electrode assembly (MEA). The variations of local coordination structure and redox response of a Pt/C cathode catalyst in an MEA before and after a typical accelerated degradation test (ADT) were three-dimensionally visualized by operando Pt LIII-edge computed-tomography X-ray absorption fine structure (CT-XAFS) imaging under PEFC operating conditions for the first time. The set of operando CT-XANES and CT-EXAFS analyses visualized changes in the local coordination structure and redox reactivity of the Pt catalyst by a typical ADT process.

    DOI: 10.1002/cnma.202200008

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  2. <i>Operando</i> Imaging of Ce Radical Scavengers in a Practical Polymer Electrolyte Fuel Cell by 3D Fluorescence CT-XAFS and Depth-Profiling Nano-XAFS-SEM/EDS Techniques 査読有り 国際誌

    Matsui, H; Takao, S; Higashi, K; Kaneko, T; Samjeské, G; Uruga, T; Tada, M; Iwasawa, Y

    ACS APPLIED MATERIALS & INTERFACES   14 巻 ( 5 ) 頁: 6762 - 6776   2022年2月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)   出版者・発行元:ACS Applied Materials and Interfaces  

    There is little information on the spatial distribution, migration, and valence of Ce species doped as an efficient radical scavenger in a practical polymer electrolyte fuel cell (PEFC) for commercial fuel cell vehicles (FCVs) closely related to a severe reliability issue for long-term PEFC operation. An in situ three-dimensional fluorescence computed tomography-X-ray absorption fine structure (CT-XAFS) imaging technique and an in situ same-view nano-XAFS-scanning electron microscopy (SEM)/energy-dispersive spectrometry (EDS) combination technique were applied for the first time to perform operando spatial visualization and depth-profiling analysis of Ce radical scavengers in a practical PEFC of Toyota MIRAI FCV under PEFC operating conditions. Using these in situ techniques, we successfully visualized and analyzed the domain, density, valence, and migration of Ce scavengers that were heterogeneously distributed in the components of PEFC, such as anode microporous layer, anode catalyst layer, polymer electrolyte membrane (PEM), cathode catalyst layer, and cathode microporous layer. The average Ce valence states in the whole PEFC and PEM were 3.9+ and 3.4+, respectively, and the Ce3+/Ce4+ ratios in the PEM under H2 (anode)-N2 (cathode) at an open-circuit voltage (OCV), H2-air at 0.2 A cm-2, and H2-air at 0.0 A cm-2 were 70 ± 5:30 ± 5%, as estimated by both in situ fluorescence CT-X-ray absorption near-edge spectroscopy (XANES) and nano-XANES-SEM/EDS techniques. The Ce3+ migration rates in the electrolyte membrane toward the anode and cathode electrodes ranged from 0.3 to 3.8 μm h-1, depending on the PEFC operating conditions. Faster Ce3+ migration was not observed with voltage transient response processes by highly time-resolved (100 ms) and spatially resolved (200 nm) nano-XANES imaging. Ce3+ ions were suggested to be coordinated with both Nafion sulfonate (Nfsul) groups and water to form [Ce(Nfsul)x(H2O)y]3+. The Ce migration behavior may also be affected by the spatial density of Ce, interactions of Ce with Nafion, thickness and states of the PEM, and H2O convection, in addition to the PEFC operating conditions. The unprecedented operando imaging of Ce radical scavengers in the practical PEFCs by both in situ three-dimensional (3D) fluorescence CT-XAFS imaging and in situ depth-profiling nano-XAFS-SEM/EDS techniques yields intriguing insights into the spatial distribution, chemical states, and behavior of Ce scavengers under the working conditions for the development of next-generation PEFCs with high long-term reliability and durability.

    DOI: 10.1021/acsami.1c22336

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  3. Ultrafine Pt-Ni nanoparticles in hollow porous carbon spheres for remarkable oxygen reduction reaction catalysis 査読有り 国際誌

    Wan, XK; Samjeské, G; Matsui, H; Chen, C; Muratsugu, S; Tada, M

    DALTON TRANSACTIONS   50 巻 ( 20 ) 頁: 6811 - 6822   2021年5月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Dalton Transactions  

    Ultrafine bimetallic Pt-Ni nanoparticles, which catalyze the oxygen reduction reaction (ORR) efficiently, were successfully prepared in hollow porous carbon spheres (HPCSs) under the assistance of organic molecules. 2,2′-Dipyridylamine (dpa) was found to be most effective in preparing homogeneous small Pt-Ni nanoparticles (2.0 ± 0.4 nm) without the phase separation of Pt and Ni during synthesis, and the assistance of the organic molecules was investigated for the alloy nanoparticle formation. The Pt-Ni nanoparticle/HPCS catalyst synthesized in the presence of dpa exhibited remarkable electrochemical performance in the ORR showing a high mass activity of 3.25 ± 0.14 A mg-1Pt at 0.9 VRHE (13.5-fold higher relative to a commercial Pt/C catalyst), a large electrochemical surface area of 105 ± 8 m2 g-1Pt, and high durability. After 60 000 cycles of accelerated durability testing, the mass activity was still 12.3 times higher than that of the commercial Pt/C catalyst.

    DOI: 10.1039/d1dt00647a

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  4. Visualization and understanding of the degradation behaviors of a PEFC Pt/C cathode electrocatalyst using a multi-analysis system combining time-resolved quick XAFS, three-dimensional XAFS-CT, and same-view nano-XAFS/STEM-EDS techniques 査読有り 国際誌

    Higashi, K; Takao, S; Samjeské, G; Matsui, H; Tada, M; Uruga, T; Iwasawa, Y

    PHYSICAL CHEMISTRY CHEMICAL PHYSICS   22 巻 ( 34 ) 頁: 18919 - 18931   2020年9月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Physical Chemistry Chemical Physics  

    We developed a multi-analysis system that can measure in situ time-resolved quick XAFS (QXAFS) and in situ three-dimensional XAFS-CT spatial imaging in the same area of a cathode electrocatalyst layer in a membrane-electrode assembly (MEA) of a polymer electrolyte fuel cell (PEFC) at the BL36XU beamline of SPring-8. The multi-analysis system also achieves ex situ two-dimensional nano-XAFS/STEM-EDS same-view measurements of a sliced MEA fabricated from a given place in the XAFS-CT imaged area at high spatial resolutions under a water-vapor saturated N2 atmosphere using a same-view SiN membrane cell. In this study, we applied the combination method of time-resolved QXAFS/3D XAFS-CT/2D nano-XAFS/STEM-EDS for the first time for the visualization analysis of the anode-gas exchange (AGEX) (simulation of the start-up/shut-down of PEFC vehicles) degradation process of a PEFC MEA Pt/C cathode. The AGEX cycles bring about serious irreversible degradation of both Pt nanoparticles and carbon support due to a spike-like large voltage increase. We could visualize the three-dimensional distribution and two-dimensional depth map of the amount, oxidation state (valence), Pt2+ elution, detachment, and aggregation of Pt species and the formation of carbon voids, where the change and movement of the Pt species in the cathode catalyst layer during the AGEX cycles did not proceed exceeding the 1 μm region. It is very different from the case of an ADT (an accelerated durability test between 0.6-1.0 VRHE)-degraded MEA. We discuss the spatiotemporal behavior of the AGEX degradation process and the degradation mechanism.

    DOI: 10.1039/d0cp01356k

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  5. Feed gas exchange (startup/shutdown) effects on Pt/C cathode electrocatalysis and surface Pt-oxide behavior in polymer electrolyte fuel cells as revealed using <i>in situ</i> real-time XAFS and high-resolution STEM measurements 査読有り 国際誌

    Samjeské, G; Kaneko, T; Gunji, T; Higashi, K; Uruga, T; Tada, M; Iwasawa, Y

    PHYSICAL CHEMISTRY CHEMICAL PHYSICS   22 巻 ( 17 ) 頁: 9424 - 9437   2020年5月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Physical Chemistry Chemical Physics  

    The synchronizing measurements of both cyclic voltammograms (CVs) and real-time quick XAFSs (QXAFSs) for Pt/C cathode electrocatalysts in a membrane electrode assembly (MEA) of polymer electrolyte fuel cells (PEFCs) treated by anode-gas exchange (AGEX) and cathode-gas exchange (CGEX) cycles (startup/shutdown conditions of FC vehicles) were performed for the first time to understand the opposite effects of the AGEX and CGEX treatments on the Pt/C performance and durability and also the contradiction between the electrochemical active surface area (ECSA) decrease and the performance increase by CGEX treatment. While the AGEX treatment decreased both the ECSA and performance of MEA Pt/C due to carbon corrosion, it was found that the CGEX treatment decreased the ECSA but increased the Pt/C performance significantly due to high-index (331) facet formation (high-resolution STEM) and hence the suppression of strongly bound Pt-oxide formation at cathode Pt nanoparticle surfaces. Transient QXAFS time-profile analysis for the MEA Pt/C also revealed a direct relationship between the electrochemical performance or durability and transient kinetics of the Pt/C cathode.

    DOI: 10.1039/c9cp06895c

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  6. Visualization Analysis of Pt and Co Species in Degraded Pt<sub>3</sub>Co/C Electrocatalyst Layers of a Polymer Electrolyte Fuel Cell Using a Same-View Nano-XAFS/STEM-EDS Combination Technique 査読有り 国際誌

    Takao, S; Sekizawa, O; Higashi, K; Samjeské, G; Kaneko, T; Sakata, T; Yamamoto, T; Uruga, T; Iwasawa, Y

    ACS APPLIED MATERIALS & INTERFACES   12 巻 ( 2 ) 頁: 2299 - 2312   2020年1月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)   出版者・発行元:ACS Applied Materials and Interfaces  

    In order to obtain a suitable design policy for the development of a next-generation polymer electrolyte fuel cell, we performed a visualization analysis of Pt and Co species following aging and degradation processes in membrane-electrode assembly (MEA), using a same-view. Nano-X-ray absorption fine structure (XAFS)/Scanning transmission electron microscope (STEM)-energy dispersive X-ray spectroscopy (EDS) technique that we developed to elucidate durability factors and degradation mechanisms of a MEA Pt3Co/C cathode electrocatalyst with higher activity and durability than a MEA Pt/C. In the MEA Pt3Co/C, after 5000 ADT-rec (rectangle accelerated durability test) cycles, unlike the MEA Pt/C, there was no oxidation of Pt. In contrast, Co oxidized and dissolved over a wide range of the cathode layer (∼70% of the initial Co amount). The larger the size of the cracks and pores in the MEA Pt/C and the smaller the ratio of Pt/ionomer of cracks and pores, the faster the rate of catalyst degradation. In contrast, there was no correlation between the size or Co/ionomer ratio of the cracks and pores and the Co dissolution of the MEA Pt3Co/C. It was shown that Co dissolved in the electrolyte region had an octahedral Co2+-O6 structure, based on a 150 nm × 150 nm nano-XAFS analysis. It was also shown that its existence suppressed the oxidation and dissolution of Pt. The MEA Pt3Co/C after 10,000 ADT-rec cycles had many cracks and pores in the cathode electrocatalyst layer, and about 90% of Co had been dissolved and removed from the cathode layer. We discovered a metallic Pt-Co alloy band in the electrolyte region of 300-400 nm from the cathode edge and square planar Pt2+-O4 species and octahedral Co2+-O6 species in the area between the cathode edge and the Pt-Co band. The transition of Pt and Co chemical species in the Pt3Co/C cathode electrocatalyst in the MEA during the degradation process, as well as a fuel cell deterioration suppression process by Co were visualized for the first time at the nano scale using the same-view nano-XAFS/STEM-EDS combination technique that can measure the MEA under a humid N2 atmosphere while maintaining the working environment for a fuel cell.

    DOI: 10.1021/acsami.9b16393

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  7. Observation of Degradation of Pt and Carbon Support in Polymer Electrolyte Fuel Cell Using Combined Nano-X-ray Absorption Fine Structure and Transmission Electron Microscopy Techniques. 査読有り 国際誌

    Takao S, Sekizawa O, Samjeské G, Kaneko T, Higashi K, Yoshida Y, Zhao X, Sakata T, Yamamoto T, Gunji T, Uruga T, Iwasawa Y

    ACS applied materials & interfaces   10 巻 ( 33 ) 頁: 27734 - 27744   2018年8月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    DOI: 10.1021/acsami.8b04407

    PubMed

  8. Non-contact electric potential measurements of electrode components in an operating polymer electrolyte fuel cell by near ambient pressure XPS 査読有り 国際誌

    Yu, LW; Takagi, Y; Nakamura, T; Sekizawa, O; Sakata, T; Uruga, T; Tada, M; Iwasawa, Y; Samjeské, G; Yokoyama, T

    PHYSICAL CHEMISTRY CHEMICAL PHYSICS   19 巻 ( 45 ) 頁: 30798 - 30803   2017年12月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Physical Chemistry Chemical Physics  

    Photoelectron spectroscopy has the advantage of providing electric potentials by non-contact measurements based on the kinetic energy shift in component potential. We performed operando hard X-ray photoelectron spectroscopy (HAXPES) measurements with an 8 keV excitation source to measure the shift in electron kinetic energies as a function of the voltages of all the components at the anode and cathode electrodes of a polymer electrolyte fuel cell (PEFC). At the cathode electrode, when we increase the voltage between the cathode and anode from 0.2 to 1.2 V, the O 1s and F 1s peaks shift to a lower binding energy and the magnitude of the energy shift is equal to the voltage. The Pt 3d and C 1s peaks do not shift with the voltage since platinum nanoparticles and carbon supports at the cathode electrode have ground contact. In contrast to the cathode electrode, the peak shifts of all the components at the anode electrode show the same amount of shift as the voltages. It is clear that the change in the potential difference occurs only in an electrical double layer at the interface between the cathode electrode (Pt/C) and the electrolyte (Nafion and water), and that the anode electrode is in equilibrium as a pseudo-hydrogen electrode. Moreover, the electric potential variation of the cathode electrode in a PEFC under a power generation condition was also directly detected by operando HAXPES.

    DOI: 10.1039/c7cp05436j

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  9. In situ study of oxidation states of platinum nanoparticles on a polymer electrolyte fuel cell electrode by near ambient pressure hard X-ray photoelectron spectroscopy 査読有り 国際誌

    Takagi, Y; Wang, H; Uemura, Y; Nakamura, T; Yu, LW; Sekizawa, O; Uruga, T; Tada, M; Samjeské, G; Iwasawa, Y; Yokoyama, T

    PHYSICAL CHEMISTRY CHEMICAL PHYSICS   19 巻 ( 8 ) 頁: 6013 - 6021   2017年2月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Physical Chemistry Chemical Physics  

    We performed in situ hard X-ray photoelectron spectroscopy (HAXPES) measurements of the electronic states of platinum nanoparticles on the cathode electrocatalyst of a polymer electrolyte fuel cell (PEFC) using a near ambient pressure (NAP) HAXPES instrument having an 8 keV excitation source. We successfully observed in situ NAP-HAXPES spectra of the Pt/C cathode catalysts of PEFCs under working conditions involving water, not only for the Pt 3d states with large photoionization cross-sections in the hard X-ray regime but also for the Pt 4f states and the valence band with small photoionization cross-sections. Thus, this setup allowed in situ observation of a variety of hard PEFC systems under operating conditions. The Pt 4f spectra of the Pt/C electrocatalysts in PEFCs clearly showed peaks originating from oxidized Pt(II) at 1.4 V, which unambiguously shows that Pt(IV) species do not exist on the Pt nanoparticles even at such large positive voltages. The water oxidation reaction might take place at that potential (the standard potential of 1.23 V versus a standard hydrogen electrode) but such a reaction should not lead to a buildup of detectable Pt(IV) species. The voltage-dependent NAP-HAXPES Pt 3d spectra revealed different behaviors with increasing voltage (0.6 → 1.0 V) compared with decreasing voltage (1.0 → 0.6 V), showing a clear hysteresis. Moreover, quantitative peak-fitting analysis showed that the fraction of non-metallic Pt species matched the ratio of the surface to total Pt atoms in the nanoparticles, which suggests that Pt oxidation only takes place at the surface of the Pt nanoparticles on the PEFC cathode, and the inner Pt atoms do not participate in the reaction. In the valence band spectra, the density of electronic states near the Fermi edge reduces with decreasing particle size, indicating an increase in the electrocatalytic activity. Additionally, a change in the valence band structure due to the oxidation of platinum atoms was also observed at large positive voltages. The developed apparatus is a valuable in situ tool for the investigation of the electronic states of PEFC electrocatalysts under working conditions.

    DOI: 10.1039/c6cp06634h

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  10. Surface-Regulated Nano-SnO2/Pt3Co/C Cathode Catalysts for Polymer Electrolyte Fuel Cells Fabricated by a Selective Electrochemical Sn Deposition Method. 査読有り 国際誌

    Nagasawa K, Takao S, Nagamatsu S, Samjeské G, Sekizawa O, Kaneko T, Higashi K, Yamamoto T, Uruga T, Iwasawa Y

    Journal of the American Chemical Society   137 巻 ( 40 ) 頁: 12856 - 64   2015年10月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    DOI: 10.1021/jacs.5b04256

    PubMed

  11. Same-View Nano-XAFS/STEM-EDS Imagings of Pt Chemical Species in Pt/C Cathode Catalyst Layers of a Polymer Electrolyte Fuel Cell. 査読有り 国際誌

    Takao S, Sekizawa O, Samjeské G, Nagamatsu S, Kaneko T, Yamamoto T, Higashi K, Nagasawa K, Uruga T, Iwasawa Y

    The journal of physical chemistry letters   6 巻 ( 11 ) 頁: 2121 - 6   2015年6月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    DOI: 10.1021/acs.jpclett.5b00750

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  12. Mapping platinum species in polymer electrolyte fuel cells by spatially resolved XAFS techniques. 査読有り 国際誌

    Takao S, Sekizawa O, Nagamatsu S, Kaneko T, Yamamoto T, Samjeské G, Higashi K, Nagasawa K, Tsuji T, Suzuki M, Kawamura N, Mizumaki M, Uruga T, Iwasawa Y

    Angewandte Chemie (International ed. in English)   53 巻 ( 51 ) 頁: 14110 - 4   2014年12月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    DOI: 10.1002/anie.201408845

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  13. Performance and durability of Pt/C cathode catalysts with different kinds of carbons for polymer electrolyte fuel cells characterized by electrochemical and in situ XAFS techniques. 査読有り 国際誌

    Nagasawa K, Takao S, Higashi K, Nagamatsu S, Samjeské G, Imaizumi Y, Sekizawa O, Yamamoto T, Uruga T, Iwasawa Y

    Physical chemistry chemical physics : PCCP   16 巻 ( 21 ) 頁: 10075 - 87   2014年6月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    DOI: 10.1039/c3cp54457e

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  14. Performance and characterization of a Pt-Sn(oxidized)/C cathode catalyst with a SnO2-decorated Pt3Sn nanostructure for oxygen reduction reaction in a polymer electrolyte fuel cell. 査読有り 国際誌

    Samjeské G, Nagamatsu S, Takao S, Nagasawa K, Imaizumi Y, Sekizawa O, Yamamoto T, Uemura Y, Uruga T, Iwasawa Y

    Physical chemistry chemical physics : PCCP   15 巻 ( 40 ) 頁: 17208 - 18   2013年10月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    DOI: 10.1039/c3cp52323c

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  15. The Role of Bridge-Bonded Adsorbed Formate in the Electrocatalytic Oxidation of Formic Acid on Platinum 査読有り 国際誌

    Osawa, M; Komatsu, K; Samjeské, G; Uchida, T; Ikeshoji, T; Cuesta, A; Gutiérrez, C

    ANGEWANDTE CHEMIE-INTERNATIONAL EDITION   50 巻 ( 5 ) 頁: 1159 - 1163   2011年

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    記述言語:英語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Angewandte Chemie - International Edition  

    A bridge too far: Time-resolved surface-enhanced infrared spectroscopy (SEIRAS) coupled with chronoamperometry shows that formic acid is oxidized via bridge-bonded adsorbed formate, and that formate decomposition is the rate-determining step in the electrooxidation of formic acid to CO2 on Pt. The contribution of direct oxidation of formic acid via weakly adsorbed HCOOH is negligible at best. © 2010 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.

    DOI: 10.1002/anie.201004782

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  16. Dynamics of CO Oxidation on a Polycrystalline Platinum Electrode: A Time-Resolved Infrared Study 査読有り 国際誌

    Samjeské, G; Komatsu, K; Osawa, M

    JOURNAL OF PHYSICAL CHEMISTRY C   113 巻 ( 23 ) 頁: 10222 - 10228   2009年6月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Journal of Physical Chemistry C  

    Electro-oxidation of CO adsorbed on a polycrystalline Pt electrode in the potential region of hydrogen absorption is examined by fast time-resolved surface-enhanced infrared absorption spectroscopy coupled to voltammetry or chronoamperometry. Oxidation dynamics at a weak preoxidation peak around 0.5 V (vs RHE) and the main oxidation peak around 0.7 V observed in stripping voltammetry are focused. IR spectra show that the shift of bridge-bonded CO to atop sites triggers the partial oxidation of CO adsorbed at atop sites to yield the preoxidation peak. It is also shown that CO on terraces becomes very mobile in the main oxidation region after some amount of CO being oxidized via a nucleation-and-growth mechanism and that terrace CO is oxidized faster than CO adsorbed at step edges. The result is interpreted in terms of a Langmuir-Hinshelwood type mechanism involving adsorbed CO and an oxygen-containing species (most likely OH) adsorbed at steps. The oxidation mechanism is essentially identical to that proposed in some earlier studies, but more convincing spectroscopic evidence of the mechanism is presented. © 2009 American Chemical Society.

    DOI: 10.1021/jp900582c

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  17. 時間分解表面増強赤外分光による電極触媒反応解析 査読有り 国際誌

    Samjeske Gabor, 山方 啓, 内田 太郎, 大澤 雅俊

    表面科学 : hyomen kagaku = Journal of the Surface Science Society of Japan   30 巻 ( 2 ) 頁: 68 - 74   2009年2月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:日本表面科学会  

    CiNii Research

  18. 時間分解表面増強赤外分光による電極触媒反応解析 国際誌

    山方 啓, 内田 太郎, 大澤 雅俊

    表面科学   30 巻 ( 2 ) 頁: 68 - 74   2009年

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:公益社団法人 日本表面科学会  

    DOI: 10.1380/jsssj.30.68

    CiNii Research

  19. Structure of water at the electrified platinum-water interface:: A study by surface-enhanced infrared absorption spectroscopy 査読有り 国際誌

    Osawa, M; Tsushima, M; Mogami, H; Samjeské, G; Yamakata, A

    JOURNAL OF PHYSICAL CHEMISTRY C   112 巻 ( 11 ) 頁: 4248 - 4256   2008年3月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Journal of Physical Chemistry C  

    Surface-enhanced infrared absorption spectroscopy in the attenuated total reflection mode is used to examine the structure of water on a polycrystalline Pt electrode in H2SO4 and HClO4 as a function of applied potential. The electrode surface covered with CO is used as the reference in recording spectra, which enables us to obtain the absolute infrared spectrum of the interfacial water layer (monolayer or bilayer) in contact with the surface with negligible interference from the bulk water. The spectrum of the interfacial water is largely different from that of bulk water and changes around the potential of zero charge of the electrode. The spectral changes are ascribed to the potential-dependent reorientation of water molecules from a weakly hydrogen-bonded oxygen-up orientation at the negatively charged surface to a strongly hydrogen-bonded nearly flat orientation at the positively charged surface in agreement with theoretical simulations reported in the literature. Clear experimental evidence of the formation of a stable ice-like structured water on the positively charged surface is reported. © 2008 American Chemical Society.

    DOI: 10.1021/jp710386g

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  20. An unexpected enhancement in methanol electro-oxidation on an ensemble of Pt(111) nanofacets: a case of nanoscale single crystal ensemble electrocatalysis 査読有り 国際誌

    Susut, C; Chapman, GB; Samjeske, G; Osawa, M; Tong, Y

    PHYSICAL CHEMISTRY CHEMICAL PHYSICS   10 巻 ( 25 ) 頁: 3712 - 3721   2008年

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Physical Chemistry Chemical Physics  

    Pt nanoparticles having the same size (∼10 nm) but different shapes (cubic or octahedral/tetrahedral), as determined by transmission electron microscopy, were synthesized via a polyol-based synthetic procedure. Their respective electrocatalytic activities for methanol oxidation were characterized by cyclic voltammetry and chronoamperometry in both sulfuric and perchloric acid electrolytes, which showed clear shape (surface orientation) dependences. Furthermore, the octahedral/tetrahedral Pt nanoparticles displayed an unexpectedly large enhancement in methanol electro-oxidation activity; about 3-fold increase in transient intrinsic activity and 10-fold increase in CO tolerance steady-state activity when compared to commercial Pt black. Gaseous and methanolic CO adsorption on the synthesized nanoparticles were also investigated by surface-enhanced IR absorption spectroscopy in perchloric acid electrolyte, which suggested that the different trends observed might be related to the electronic effects specific to a given ensemble of the nanofacets. © the Owner Societies.

    DOI: 10.1039/b802708k

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  21. Formic acid electrooxidation on Pd in acidic solutions studied by surface-enhanced infrared absorption spectroscopy 査読有り 国際誌

    Miyake, H; Okada, T; Samjeské, G; Osawa, M

    PHYSICAL CHEMISTRY CHEMICAL PHYSICS   10 巻 ( 25 ) 頁: 3662 - 3669   2008年

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Physical Chemistry Chemical Physics  

    A mechanistic study of electrocatalytic oxidation of formic acid on Pd in sulfuric and perchloric acids is reported. Surface-enhanced infrared absorption spectroscopy in the attenuated total reflection mode (ATR-SEIRAS) shows the adsorption of CO, bridge-bonded formate, bicarbonate, and supporting anions on the electrode surface. Poisoning of the Pd surface by CO, formed by dehydration of formic acid, is very slow and scarcely affects formic acid oxidation. The anions are adsorbed more strongly in the order of (bi)sulfate > bicarbonate > perchlorate, among which the most strongly adsorbed (bi)sulfate considerably suppresses formic acid oxidation in the double layer region. The oxidation is suppressed also at higher potentials in both acids by the oxidation of the Pd surface. Adsorbed formate is detected only when formic acid oxidation is suppressed. The results show that formate is a short-lived reactive intermediate in formic acid oxidation and is hence detected when its decomposition yielding CO2 is suppressed. The high electrocatalytic activity of Pd can be ascribed to the high tolerance to CO contamination and also high catalytic activity toward formate decomposition. © the Owner Societies.

    DOI: 10.1039/b805955a

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  22. Electrocatalytic oxidation of formaldehyde on platinum under galvanostatic and potential sweep conditions studied by time-resolved surface-enhanced infrared spectroscopy 査読有り 国際誌

    Samjeské, G; Miki, A; Osawa, M

    JOURNAL OF PHYSICAL CHEMISTRY C   111 巻 ( 41 ) 頁: 15074 - 15083   2007年10月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Journal of Physical Chemistry C  

    When formaldehyde is oxidized on a Pt electrode under galvanostatic (constant current) conditions, the electrode potential oscillates spontaneously. The oscillatory behavior has been examined by time-resolved surface-enhanced infrared absorption spectroscopy (SEIRAS) for understanding the mechanism and kinetics of the reaction at the molecular scale. SEIRAS reveals that CO and formate are adsorbed on the electrode surface and that their band intensities (coverages) oscillate synchronously with the oscillation of potential. SEIRAS coupled to cyclic voltammetry or linear sweep voltammetry suggests that formaldehyde is oxidized to CO2 via two parallel processes: the direct path via adsorbed formate and the indirect path via adsorbed CO. The two processes are kinetically coupled and autocatalytically activate and deactivate formaldehyde oxidation to yield the potential oscillations. The oxidation of the electrode surface also contributes to the oscillations for large applied currents. © 2007 American Chemical Society.

    DOI: 10.1021/jp0743020

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  23. Hydrogen adsorption and hydrogen evolution reaction on a polycrystalline Pt electrode studied by surface-enhanced infrared absorption spectroscopy 査読有り 国際誌

    Kunimatsu, K; Senzaki, T; Samjeské, G; Tsushima, M; Osawa, M

    ELECTROCHIMICA ACTA   52 巻 ( 18 ) 頁: 5715 - 5724   2007年5月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Electrochimica Acta  

    Hydrogen evolution reaction (HER) on a polycrystalline Pt electrode has been investigated in Ar-purged acids by surface-enhanced infrared absorption spectroscopy and electrochemical kinetic analysis (Tafel plot). A vibrational mode characteristic to H atom adsorbed at atop sites (terminal H) was observed at 2080-2095 cm-1. This band appears at 0.1 V (RHE) and grows at more negative potentials in parallel to the increase in hydrogen evolution current. Good signal-to-noise ratio of the spectra enabled us to establish the quantitative relation between the band intensity (equivalently, coverage) of terminal H and the kinetics of HER, from which we conclude that terminal H atom is the reaction intermediate in HER and the recombination of two terminal H atoms is the rate-determining step. The quantitative analysis of the infrared data also revealed that the adsorption of terminal H follows the Frumkin isotherm with repulsive interaction. © 2007 Elsevier Ltd. All rights reserved.

    DOI: 10.1016/j.electacta.2006.12.007

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  24. Hydrogen adsorption and hydrogen evolution reaction on a polycrystalline Pt electrode studied by surface-enhanced infrared absorption spectroscopy 査読有り 国際誌

    Kunimatsu, K; Senzaki, T; Samjeské, G; Tsushima, M; Osawa, M

    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY   233 巻   2007年3月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)  

    Web of Science

  25. Mechanistic study of electrocatalytic oxidation of formic acid at platinum in acidic solution by time-resolved surface-enhanced infrared absorption spectroscopy 査読有り 国際誌

    Samjeské G., Miki A., Ye S., Osawa M.

    Journal of Physical Chemistry B   110 巻 ( 33 ) 頁: 16559 - 16566   2006年8月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Journal of Physical Chemistry B  

    Surface-enhanced infrared absorption spectroscopy (SEIRAS) combined with cyclic voltammetry or chronoamperometry has been utilized to examine kinetic and mechanistic aspects of the electrocatalytic oxidation of formic acid on a polycrystalline Pt surface at the molecular scale. Formate is adsorbed on the electrode in a bridge configuration in parallel to the adsorption of linear and bridge CO produced by dehydration of formic acid. A solution-exchange experiment using isotope-labeled formic acids (H12COOH and H 13COOH) reveals that formic acid is oxidized to CO2 via adsorbed formate and the decomposition (oxidation) of formate to CO2 is the rate-determining step of the reaction. The adsorption/oxidation of CO and the oxidation/reduction of the electrode surface strongly affect the formic acid oxidation by blocking active sites for formate adsorption and also by retarding the decomposition of adsorbed formate. The interplay of the involved processes also affects the kinetics and complicates the cyclic voltammograms of formic acid oxidation. The complex voltammetric behavior is comprehensively explained at the molecular scale by taking all these effects into account. © 2006 American Chemical Society.

    DOI: 10.1021/jp0618911

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  26. Mechanistic study of electrocatalytic oxidation of formic acid at platinum in acidic solution by time-resolved surface-enhanced infrared absorption spectroscopy 査読有り 国際誌

    Samjeské, G; Miki, A; Ye, S; Osawa, M

    JOURNAL OF PHYSICAL CHEMISTRY B   110 巻 ( 33 ) 頁: 16559 - 16566   2006年8月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Journal of Physical Chemistry B  

    Surface-enhanced infrared absorption spectroscopy (SEIRAS) combined with cyclic voltammetry or chronoamperometry has been utilized to examine kinetic and mechanistic aspects of the electrocatalytic oxidation of formic acid on a polycrystalline Pt surface at the molecular scale. Formate is adsorbed on the electrode in a bridge configuration in parallel to the adsorption of linear and bridge CO produced by dehydration of formic acid. A solution-exchange experiment using isotope-labeled formic acids (H12COOH and H13COOH) reveals that formic acid is oxidized to CO2 via adsorbed formate and the decomposition (oxidation) of formate to CO2 is the rate-determining step of the reaction. The adsorption/oxidation of CO and the oxidation/reduction of the electrode surface strongly affect the formic acid oxidation by blocking active sites for formate adsorption and also by retarding the decomposition of adsorbed formate. The interplay of the involved processes also affects the kinetics and complicates the cyclic voltammograms of formic acid oxidation. The complex voltammetric behavior is comprehensively explained at the molecular scale by taking all these effects into account. © 2006 American Chemical Society.

    DOI: 10.1021/jp061891l

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  27. Potential oscillations in galvanostatic electrooxidation of formic acid on platinum:: A mathematical modeling and simulation 査読有り 国際誌

    Mukouyama, Y; Kikuchi, M; Samjeské, G; Osawa, M; Okamoto, H

    JOURNAL OF PHYSICAL CHEMISTRY B   110 巻 ( 24 ) 頁: 11912 - 11917   2006年6月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Journal of Physical Chemistry B  

    We have modeled temporal potential oscillations during the electrooxidation of formic acid on platinum on the basis of the experimental results obtained by time-resolved surface-enhanced infrared absorption spectroscopy (J. Phys. Chem. B 2005, 109, 23509). The model was constructed within the framework of the so-called dual-path mechanism; a direct path via a reactive intermediate and an indirect path via strongly bonded CO formed by dehydration of formic acid. The model differs from earlier ones in the intermediate in the direct path. The reactive intermediate in this model is formate, and the oxidation of formate to CO2 is rate-detemining. The reaction rate of the latter process is represented by a second-order rate equation. Simulations using this model well reproduce the experimentally observed oscillation patterns and the temporal changes in the coverages of the adsorbed formate and CO. Most properties of the voltammetric behavior of formic acid, including the potential dependence of adsorbate coverages and a negative differential resistance, are also reproduced. © 2006 American Chemical Society.

    DOI: 10.1021/jp061129j

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  28. Potential oscillations in galvanostatic electrooxidation of formic acid on platinum:: A time-resolved surface-enhanced infrared study 査読有り 国際誌

    Samjeské, G; Miki, A; Ye, S; Yamakata, A; Mukouyama, Y; Okamoto, H; Osawa, M

    JOURNAL OF PHYSICAL CHEMISTRY B   109 巻 ( 49 ) 頁: 23509 - 23516   2005年12月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Journal of Physical Chemistry B  

    The mechanism of temporal potential oscillations that occur during galvanostatic formic acid oxidation on a Pt electrode has been investigated by time-resolved surface-enhanced infrared absorption spectroscopy (SEIRAS). Carbon monoxide (CO) and formate were found to adsorb on the surface and change their coverages synchronously with the temporal potential oscillations. Isotopic solution exchange (from H13COOH to H12COOH) and potential step experiments revealed that the oxidation of formic acid proceeds dominantly through adsorbed formate and the decomposition of formate to CO 2 is the rate-determining step of the reaction. Adsorbed CO blocks the adsorption of formate and also suppresses the decomposition of formate to CO2, which raises the potential to maintain the applied current. The oxidative removal of CO at a high limiting potential increases the coverage of formate and accelerates the decomposition of formate, resulting in a potential drop and leading to the formation of CO. This cycle repeats itself to give the sustained temporal potential oscillations. The oscillatory dynamics can be explained by using a nonlinear rate equation originally proposed to explain the decomposition of formate and acetate on transition metal surfaces in UHV. © 2005 American Chemical Society.

    DOI: 10.1021/jp055220j

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  29. Current oscillations during formic acid oxidation on a Pt electrode:: Insight into the mechanism by time-resolved IR spectroscopy 査読有り 国際誌

    Samjeské, G; Osawa, M

    ANGEWANDTE CHEMIE-INTERNATIONAL EDITION   44 巻 ( 35 ) 頁: 5694 - 5698   2005年

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    記述言語:英語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Angewandte Chemie - International Edition  

    (Graph Presented) Revised model: Current oscillations in the electrooxidation of formic acid at a fixed potential can be observed by time-resolved surface-enhanced infrared absorption spectroscopy (see picture). Real-time probing of the reaction dynamics on the electrode surface provides new insight into the oscillations that are not accessible by conventional techniques. The reaction mechanism involves adsorbed formate as a reactive intermediate. © 2005 Wiley-VCH Verlag GmbH & Co. KGaA.

    DOI: 10.1002/anie.200501009

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  30. The adsorption of Sn on Pt(1 1 1) and its influence on CO adsorption as studied by XPS and FTIR 査読有り 国際誌

    Tillmann S., Samjeské G., Friedrich K.A., Baltruschat H.

    Electrochimica Acta   49 巻 ( 1 ) 頁: 73 - 83   2003年12月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Electrochimica Acta  

    The coverage of Sn on Pt(1 1 1) which is obtained by electrochemical deposition from 5 × 10-5 M Sn2+ in 0.5 M H 2SO4 has been determined by XPS for different deposition times. Complete suppression of hydrogen adsorption corresponds to a coverage of νmax = 0.35 (Sn to surface Pt atoms). Co-adsorption of CO with Sn on Pt(1 1 1) has been studied by FTIR spectroscopy. The IR spectra of the stretching vibration of CO can be interpreted in terms of the vibrational signature of the Pt(1 1 1)/CO system and no vibrational bands associated with CO on Sn are detected. At high Sn coverages, the 1840 cm-1 band associated with bridge-bonded CO and the 2070 cm-1 band assigned to on-top CO are present, however, no hollow site adsorption which is characterized by the 1780 cm-1 band is revealed within the resolution of the experiment. This vibrational signature corresponds to a less compressed adlayer compared to the (2 × 2)-3CO saturation structure on Pt(1 1 1). At lower Sn coverages, signatures from both the compressed and the less compressed CO adlayer structures are seen in the spectra. From earlier structural and electrochemical studies it is known that Sn is adsorbed in 2D islands and influences CO molecules in its neighbourhood electronically. This leads to a disappearance of the IR band from CO adsorbed in the hollow site at high Sn coverages and to higher population of the weakly adsorbed state of CO for all Sn-modified surfaces, i.e. a relative increase of the amount of CO oxidised at low potentials. In addition to this electronic effect, Sn also exerts a co-catalytic effect at low Sn coverages on that part of CO which is adsorbed at a larger distance from Sn due to a bi-functional mechanism. The IR spectra shows for the Sn-modified Pt(1 1 1) surface that the transition from the compressed CO adlayer which is characterized by the hollow site adsorption of CO to the less compressed one which exhibits a characteristic band associated with bridge-bonded CO occurs already at 250 mV instead of 400 mV. © 2003 Elsevier Ltd. All rights reserved.

    DOI: 10.1016/j.electacta.2003.07.009

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  31. On the effect of tungsten on CO oxidation at Pt electrodes 査読有り 国際誌

    Nagel T., Bogolowski N., Samjeske G., Baltruschat H.

    Journal of Solid State Electrochemistry   7 巻 ( 9 ) 頁: 614 - 618   2003年9月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Journal of Solid State Electrochemistry  

    The co-catalytic effect of W on the oxidation of CO and methanol is investigated by using differential electrochemical mass spectrometry (DEMS). DEMS reveals that CO oxidation starts at 120 mV, overlapping with W oxidation. The action of W consists in shifting the pre-peak from 450 mV (as observed on pure Pt) to 200 mV. In this shifted pre-peak only 2% of the total adsorbed CO is oxidized independently from the W coverage, as compared to 10% on pure Pt. A correlation between the surface coverage of W as determined by XPS with the W oxidation peak charge in cyclic voltammetry suggests that the oxidation is a six-electron process.

    DOI: 10.1007/s10008-003-0440-6

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  32. CO and methanol oxidation at Pt-electrodes modified by Mo 査読有り 国際誌

    Samjeské G., Wang H., Löffler T., Baltruschat H.

    Electrochimica Acta   47 巻 ( 22-23 ) 頁: 3681 - 3692   2002年8月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Electrochimica Acta  

    The co-catalytic effect of Mo on the oxidation of adsorbed CO is examined on different types of electrodes using differential electrochemical mass spectrometry (DEMS). Mo surface composition is determined by XPS. Mo was either deposited electrochemically onto Pt(111), Pt(332), smooth and porous polycrystalline Pt electrodes, or prepared by co-sputter deposition. From a comparison of the surface coverage of Mo on Pt(111) and the corresponding oxidation charge, a number of six electrons per adsorbed Mo is estimated, meaning that below 0.2 V adsorbed Mo has a formal oxidation number of zero. Since there is a linear relationship between the oxidation charge of Mo and the suppression of CO adsorption when varying the Mo coverage, we conclude that CO does not adsorb on Mo. From the oxidation charge and the number of CO adsorption sites suppressed, we obtain a number of three electrons per site; therefore, one Mo atom blocks approximately two Pt sites. DEMS reveals, that CO2 formation starts around 0.15 V, overlapping with the onset of Mo oxidation. The action of Mo is to shift the usual prepeak (weakly adsorbed state) from 0.5 to 0.3 V, whereas the main oxidation peak (strongly adsorbed state) is hardly affected. This resembles the effect of Sn; however, Sn forces up to 50% of the adsorbed CO from the strongly adsorbed state into the weakly adsorbed state, independent of the Sn coverage, whereas in the case of Mo, only around one tenth of the adsorbed CO is oxidized in the prepeak, independent of Mo coverage. Therefore, we explain the effect of Mo by an oxygen spillover effect, which is only working for CO in the weakly adsorbed state, and not by an electronic, repulsive interaction as in the case of Sn. With sequential step decoration on Pt(332) by Ru and Mo, it is shown that a synergetic effect of both co-catalysts is obtained. The effect of Mo on the oxidation of COad formed by adsorbing methanol and on the oxidation of methanol is very small. © 2002 Elsevier Science Ltd. All rights reserved.

    DOI: 10.1016/S0013-4686(02)00338-9

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  33. Ru decoration of stepped Pt single crystals and the role of the terrace width on the electrocatalytic CO oxidation 査読有り 国際誌

    Samjeské G., Xiao X.Y., Baltruschat H.

    Langmuir   18 巻 ( 12 ) 頁: 4659 - 4666   2002年6月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Langmuir  

    The influence of monatomic steps on the oxidation of adsorbed CO is examined using potentiodynamic and galvanostatic experiments. Galvanostatic experiments allow a better determination of the lowest possible oxidation potential than cyclic voltammetry. By comparing results on Pt(111), Pt(665), Pt(332), and Pt(755), we found that steps with a local (110) geometry are more active than those with a (100) geometry. Steps can be decorated by Ru, thus leading to surfaces with a known atomic arrangement of the components. During galvanostatic oxidation of adsorbed CO on such surfaces a second potential plateau is observed, the value of which depends on the density of steps. These transients suggest the existence of an electronic effect in addition to the widely accepted bifunctional mechanism: Due to the electronic effect, only CO in the neighborhood of Ru is destabilized, whereas CO adsorbed at more distant sites is not influenced and has to diffuse "uphill" to the reactive sites, leading to an apparently slow diffusion. In addition, the spillover effect according to the bifunctional mechanism lowers the height of the activation barrier for CO oxidation and therefore has an influence on all adsorbed CO.

    DOI: 10.1021/la011308m

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  34. The co-catalytic effect of Sn, Ru and Mo decorating steps of Pt(111) vicinal electrode surfaces on the oxidation of CO 査読有り 国際誌

    Massong H., Wang H., Samjeské G., Baltruschat H.

    Electrochimica Acta   46 巻 ( 5 ) 頁: 701 - 707   2001年1月

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    記述言語:日本語   掲載種別:研究論文(学術雑誌)   出版者・発行元:Electrochimica Acta  

    Model bimetallic catalyst surfaces were generated by depositing small submonolayer amounts of Ru, Sn and Mo on Pt(111) and Pt(332) single crystal electrodes. In particular, in the case of Pt(332), a step decoration was achieved and thus a catalyst surface with a known atomic arrangement of the constituents. Ternary catalysts were modelled by sequential deposition of Sn and Ru. To study the influence on the rate of oxidation of adsorbed CO in cyclic voltammetry, CO2 formation rates were monitored by differential electrochemical mass spectrometry (DEMS), which allows a separation from pseudocapacitive effects, e.g. oxygen adsorption. Contrary to PtRu alloy electrodes, adsorbed CO on the Ru modified single crystal electrodes is oxidized in two oxidation peaks. In accordance with Monte Carlo simulations [1], this is due to slow diffusion of adsorbed CO to Ru sites. The CO adsorption state corresponding to the 2nd peak is also not oxidized during an extended potential stop at the onset of the 1st peak. Ternary model catalysts were used to test whether a synergetic effect of Ru and Sn, which influence the CO oxidation quite differently, is possible. The ternary model catalyst behaved like a superposition of the corresponding binary catalysts, probably because separate 2D (on Pt(111) or 1D (on Pt(332)) islands of Ru or Sn were formed instead of an atomically mixed overlayer. Mo shifts the onset potential for oxidation of adsorbed CO to even lower potentials (0.15 to 0.2 V) than Sn. However, at such a low potential only about 10% of the adsorbate is oxidized, the main oxidation peak is hardly influenced. © 2000 Elsevier Science Ltd. All rights reserved.

    DOI: 10.1016/s0013-4686(00)00654-x

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▼全件表示

講演・口頭発表等 3

  1. Nitrogen-doped Hollow Porous Carbon Sphere Encapsulated PtNixRhy-alloy Nanoparticles as Methanol Oxidation Electrocatalysts in Alkaline Electrolyte

    Gabor Samjeske, Xian-Kai Wan, Hirosuke Matsui, Takeshi Tokida, Chaoqi Chen, Satoshi Muratsugu, Mizuki Tada

    102nd CSJ Annual Meeting  2022年3月25日  The Chemical Society of Japan

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    開催年月日: 2022年3月

    記述言語:英語   会議種別:口頭発表(一般)  

    開催地:Online  

  2. On-site SO2 poisoning of PEFC Pt Cathode Catalyst for operando Pt LIII-edge XAFS analysis

    Koshin Sato, Hirosuke Matsui, Gabor Samjeske, Tomoya Uruga, Mizuki Tada

    102nd CSJ Annual Meeting  2022年3月25日  The Chemical Society of Japan

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    開催年月日: 2022年3月

    記述言語:日本語   会議種別:口頭発表(一般)  

    開催地:Online Meeting  

  3. Enhanced Oxygen Reduction Reaction Activity and Durability by 2,2'-Dipyridylamine Assisted Encapsulation of PtNi Nanoparticles into Hollow Porous Carbon Spheres

    Gabor Samjeske, Xian-Kai Wan, Hirosuke Matsui, Chaoqi Chen, Satoshi Muratsugu, Mizuki Tada

    101st CSJ Annual Meeting (2021)  2021年3月19日  The Chemical Society of Japan

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    開催年月日: 2021年3月

    記述言語:英語   会議種別:口頭発表(一般)  

    開催地:Online Meeting  

 

担当経験のある科目 (本学) 1

  1. Core Inorganic Chemistry

    2021