钯在TiO2(110)上沉积及纳米颗粒包封

Q1 Materials Science
M. Bowker, R. Sharpe
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引用次数: 8

摘要

摘要研究了溅射、退火和氧化对TiO2(110)表面性能的影响,以及纳米颗粒存在的相同表面。溅射干净的晶体得到了一个以Ti2+为主的表面。真空退火后,表面主要为Ti3+,4+。氧化大大降低了表面Ti3+。当钯纳米粒子在任何被研究的二氧化钛表面退火时,粒子被氧化钛薄膜包裹起来。这在ISS(离子散射光谱)中尤其明显,在退火至750 K后,Pd:Ti比下降了300倍,表明氧化膜完全覆盖了Pd纳米颗粒。沉积在还原表面(从~673K开始)的纳米颗粒最容易发生这种情况,但也发生在~773K高度氧化的表面。因此,从亚表面区域还原的Ti可以迁移到Pd表面形成亚氧化物,亚氧化物是一个薄的tio样层。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pd deposition on TiO2(110) and nanoparticle encapsulation
Abstract. The effect of sputtering, annealing and oxidation on the surface properties of TiO2(110), and on the same surfaces with nanoparticles present, has been investigated. Sputtering the crystal clean gives a much reduced surface with Ti2+ as the dominant species. This,surface is mainly Ti3+,4+ after annealing in vacuum. Oxidation reduces the surface Ti3+ considerably. When Pd nanoparticles are annealed on any of the investigated titania surfaces the particles become encapsulated by a film of titanium oxide. This is particularly noticeable in ISS (ion scattering spectroscopy) where the Pd:Ti ratio drops by a factor of 300 after annealing to 750 K, indicating complete coverage of the Pd nanoparticles by the oxide film. This happens most easily for the nanoparticles deposited on the reduced surfaces (beginning at ~673K) but also occurs for the very oxidized surface at~773K. Thus reduced Ti from the subsurface region can migrate onto the Pd surface to form the sub-oxide, the sub-oxide being a thin TiO-like layer.
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来源期刊
Catalysis Structure & Reactivity
Catalysis Structure & Reactivity CHEMISTRY, PHYSICAL-
CiteScore
4.80
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0.00%
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