化学
剥离(纤维)
解吸
铂金
吸附
饱和(图论)
计时安培法
分析化学(期刊)
石英晶体微天平
纳米颗粒
动力学
电化学
无机化学
物理化学
化学工程
电极
色谱法
循环伏安法
催化作用
有机化学
材料科学
量子力学
复合材料
工程类
数学
物理
组合数学
作者
Patrick Urchaga,Stéve Baranton,Christophe Coutanceau,Gregory Jerkiewicz
出处
期刊:Langmuir
[American Chemical Society]
日期:2012-08-17
卷期号:28 (36): 13094-13104
被引量:32
摘要
The oxidative stripping of a saturation layer of CO(chem) was studied on platinum nanoparticles of high shape selectivity and narrow size distribution. Nanospheres, nanocubes, and nano-octahedrons were synthesized using the water-in-oil microemulsion or polyacrylate methods. The three shapes allowed examination of the CO(chem) stripping in relation to the geometry of the nanoparticles and presence of specific nanoscopic surface domains. Electrochemical quartz crystal nanobalance (EQCN) measurements provided evidence for the existence of more than one mechanism in the CO(chem) stripping. This was corroborated by chronoamperometry transient for a CO(chem) saturation layer at stripping potentials of E(strip) = 0.40, 0.50, 0.60, and 0.70 V. The first mechanism is operational in the case of CO(chem) stripping at lower E(strip) values; it proceeds without adsorption of anions or H(2)O molecules and corresponds to desorption of a fraction of CO(chem) in the form of a prepeak in voltammograms or in the form of an exponential decay in chrono-amperometry (CA) transients. The second mechanism is operational in the desorption of the remaining CO(chem) at higher E(strip) values and gives rise to at least two voltammetric peaks or two CA peaks. Analysis of the experimental data and modeling of the CA transients lead to the conclusion that the stripping of a saturation layer of CO(chem) first follows an Eley-Rideal mechanism in the early stage of the process and then a Langmuir-Hinshelwood mechanism.
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