The re-oxidation of the substoichiometric TiO2(110) surface in the presence of crystallographic shear planes

PhysChemComm Pub Date : 2000-01-01 DOI:10.1039/B001938K
R. Bennett
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引用次数: 17

Abstract

Re-oxidation of reduced oxide surfaces is a fundamental step in catalysis and related fields. This paper reports the first study of the re-oxidation, at elevated temperature, of crystallographic shear planes (CSPs) occurring on the non-stoichiometric rutile TiO2(110) surface by scanning tunnelling microscopy (STM). The re-oxidation occurs by the reaction of interstitial Tin+ ions dissolved in the crystal bulk with oxygen at the surface to re-grow new TiO2 layers on the surface. The CSPs act as nucleation centres for the re-growth and are, in general, preserved during the early stages of the re-oxidation. CSPs appear in pairs on the surface and sandwich a layer of rutile that is displaced by one half an atomic step height from the original terrace. Each step edge of the pair shows markedly different structure and growth rate. The growth of the surface also takes place on the displaced region between CSP pairs
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在晶体剪切面存在的情况下,亚化学计量TiO2(110)表面的再氧化
还原氧化物表面的再氧化是催化及相关领域的基本步骤。本文首次利用扫描隧道显微镜(STM)研究了在高温下发生在非化学计量金红石型TiO2(110)表面的晶体剪切面(CSPs)的再氧化。再氧化是溶解在晶体体中的间隙Tin+离子与表面的氧反应,在表面重新生长出新的TiO2层。csp作为再生长的成核中心,通常在再氧化的早期阶段被保存。csp成对地出现在表面,并夹在一层金红石上,金红石从原来的露台移动了半个原子台阶的高度。每个台阶边缘的结构和生长速度都有显著差异。表面的生长也发生在CSP对之间的位移区域
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