Pt-Fe催化剂次表层Fe结构表面的CO氧化反应性能  被引量：1

作　　者：王亚琴[1,2] 马腾 Wang Yaqin;Ma Teng(School of Environmental and Chemical Engineering,Shenyang Ligong University,Shenyang 110168,Liaoning,China;Institute of Science,Shenyang Agricuhural University,Shenyang 110866,Liaoning,China)

机构地区：[1]沈阳理工大学环境与化学工程学院,辽宁沈阳110168 [2]沈阳农业大学理学院,辽宁沈阳110866

出　　处：《工业催化》2018年第8期31-35,共5页Industrial Catalysis

基　　金：国家自然科学基金资助项目(2140113)

摘　　要：利用紫外光电子能谱等表面科学方法,研究了Pt-Fe模型催化剂的次表层Fe结构[即Pt/Fe/Pt(111)结构]在不同条件下CO的吸附及其氧化反应。结果表明,Pt/Fe/Pt(111)结构在H_2气氛或者超高真空中是种稳定结构,最外层的原子与Pt(111)相同,是密排的铂原子面;但次表层的原子中有约0.5单层的铁原子,使费米边附近(0~2.0)e V的电子态密度明显低于Pt(111)表面,从而改变表面的CO和O_2吸附以及反应性能。程序升温的紫外光电子能谱结果显示,Pt/Fe/Pt(111)表面在(100~300)K,CO的吸附受温度的影响不明显,且O_2能够吸附、活化并使共吸附的CO发生氧化反应;当温度为300 K时,O_2无法在Pt/Fe/Pt(111)表面吸附、活化,所以CO氧化反应无法进行。Pt/Fe/Pt(111)结构虽然能有效地减弱CO的吸附从而避免CO毒化的问题,但O_2的吸附和活化也受到显著抑制并影响到一定条件下CO的氧化反应。CO adsorption and oxidation on subsurface Fe model catalyst,Pt/Fe/Pt（ 111） structure with0. 5 ML subsurface Fe,were studied by surface science methods,such as ultraviolet photoelectron spectroscopy,ion scattering spectroscopy and etc. Results showed that Pt/Fe/Pt（ 111） was stable under H2 atmosphere or ultra high vacuum,and the outmost Pt layer was the same to closed packed Pt（ 111）. Its electronic density of states of Fermi level（ 0-2. 0） e V was lower than Pt（ 111） surface because of there was 0. 5 monolayer Fe on subsurface,which influenced adsorption and reaction of CO and O2. At the range of（ 100-300） K,effects of temperature on CO adsorption were weak,O2 could be weakly adsorbed on Pt/Fe/Pt（ 111） surface and activated to react with adsorbed CO. However,at 300 K,no O2 adsorption could be observed on Pt/Fe/Pt（ 111） surface,CO oxidation could not happen. In conclusion,Pt/Fe/Pt（ 111） surface could decrease adsorption of CO to avoid CO poisoning,but adsorption and activation of O2 was also weakened obviously,which could influence CO oxidation under certain reaction conditions.

关 键 词：催化化学 模型催化剂 次表层Fe结构 CO氧化反应 催化反应机理 

分 类 号：O643.36[理学—物理化学] TQ426.1[理学—化学]