Precise Observation of Growth of Surface Oxide Layer for Pd and Cu Nanoparticles During Oxidative/Reductive Gases Cyclic Flow Studied by Real-Time-Resolved XAFS Spectroscopy

Daiju Matsumura; Yasuo Nishihata; Yuka Okajima

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Precise Observation of Growth of Surface Oxide Layer for Pd and Cu Nanoparticles During Oxidative/Reductive Gases Cyclic Flow Studied by Real-Time-Resolved XAFS Spectroscopy

机译：实时分辨XAFS光谱法研究Pd和Cu纳米粒子在氧化/还原气体循环流中表面氧化物层的生长的精确观察

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We have demonstrated in situ and real-time-resolved X-ray absorption ne structure (XAFS) observation for oscillatory creation and removal reactions of surface oxide layer of Pd and Cu metal nanoparticles during cyclic flow of oxidative and reductive gases every 10 s. Pd and Cu K-edges XAFS spectra were collected at about 1-2 Hz. Precise observation of edge position was utilized for monitoring surface oxidation and reduction reactions. Reaction rate of surface oxide layer creation by NO for Pd metal nanoparticle is faster in the case of H2/NO cyclic flow than in CO/NO. Fast and two-step surface oxidation and reduction reactions were revealed in Cu metal nanoparticles. [DOI: 10.1380/ejssnt.2016.48]

机译：我们已经证明了原位和实时分辨的X射线吸收能结构（XAFS）观察可用于在氧化和还原气体每10 s循环流动期间Pd和Cu金属纳米颗粒的表面氧化物层的振荡产生和去除反应。 Pd和Cu K边缘XAFS光谱在约1-2 Hz处收集。边缘位置的精确观察被用于监测表面氧化和还原反应。在H2 / NO循环流动的情况下，Pd金属纳米粒子通过NO生成表面氧化物层的反应速率要快于CO / NO。在铜金属纳米粒子中发现了快速和两步的表面氧化和还原反应。 [DOI：10.1380 / ejssnt.2016.48]

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《Transactions of the Japan Society for Computational Engineering and Science》 |2016年第5期|共5页
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Daiju Matsumura; Yasuo Nishihata; Yuka Okajima;
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1. Precise Observation of Growth of Surface Oxide Layer for Pd and Cu Nanoparticles During Oxidative/Reductive Gases Cyclic Flow Studied by Real-Time-Resolved XAFS Spectroscopy [J] . Daiju Matsumura, Yasuo Nishihata, Yuka Okajima E-Journal of Surface Science and Nanotechnology . 2016,第1期

机译：实时分辨XAFS光谱法研究Pd和Cu纳米粒子在氧化/还原气体循环流中表面氧化物层的生长的精确观察
2. Ultra-thin oxide layer formation on Cu-9% Al(111) surface and Pd growth studied using reflection high energy electron diffraction and Auger electron spectroscopy [J] . Nemsak S, Yoshitake M, Masek K Surface Science . 2006,第18期

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3. Formation and oxidation mechanisms of Pd-Zn nanoparticles on a ZnO supported Pd catalyst studied by in situ time-resolved QXAFS and DXAFSt [J] . Yohei Uemura, Yasuhiro Inada, Yasuhiro Niwa Physical chemistry chemical physics: PCCP . 2012,第7期

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4. Self-limiting oxidation during growth of very thin oxides on Si001 surface studied by real-time Auger electron spectroscopy [C] . Takakuwa, Y., Kawawa, . 2002

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机译：烷烃硫醇自组装单分子层，反应性自组装单分子层，扁平金纳米颗粒/铟锡氧化物基质的生长介质和温度依赖性结构相的扫描隧道显微镜研究，以及互补金属氧化物中局部机械应力表征的扫描表面光电压显微镜研究半导体器件。
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7. Precise Observation of Growth of Surface Oxide Layer for Pd and Cu Nanoparticles During Oxidative/Reductive Gases Cyclic Flow Studied by Real-Time-Resolved XAFS Spectroscopy [O] . Daiju Matsumura, Yasuo Nishihata, Yuka Okajima 2016

机译：精确地观察Pd和Cu纳米粒子在氧化/还原气体循环流动过程中的氧化剂/ Cu纳米粒子的生长循环流动

Precise Observation of Growth of Surface Oxide Layer for Pd and Cu Nanoparticles During Oxidative/Reductive Gases Cyclic Flow Studied by Real-Time-Resolved XAFS Spectroscopy

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