Dissociative Carbon Dioxide Adsorption and Morphological Changes on Cu(100) and Cu(111) at Ambient Pressures

被引:114
作者
Eren, Baran [1 ]
Weatherup, Robert S. [1 ]
Liakakos, Nikos [2 ]
Somorjai, Gabor A. [1 ,3 ]
Salmeron, Miguel [1 ,4 ]
机构
[1] Lawrence Berkeley Natl Lab, Mat Sci Div, 1 Cyclotron Rd, Berkeley, CA 94720 USA
[2] Lawrence Berkeley Natl Lab, Div Chem Sci, 1 Cyclotron Rd, Berkeley, CA 94720 USA
[3] Univ Calif Berkeley, Dept Chem, Berkeley, CA 94720 USA
[4] Univ Calif Berkeley, Dept Mat Sci & Engn, Berkeley, CA 94720 USA
来源
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY | 2016年 / 138卷 / 26期
关键词
RAY PHOTOELECTRON-SPECTROSCOPY; SCANNING-TUNNELING-MICROSCOPY; METHANOL SYNTHESIS; SURFACE-CHEMISTRY; COPPER SURFACES; LOW-TEMPERATURE; CO GAS; CATALYSTS; OXYGEN; CU;
D O I
10.1021/jacs.6b04039
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Ambient-pressure X-ray photoelectron spectroscopy (APXPS) and high-pressure scanning tunneling microscopy (HPSTM) were used to study the structure and chemistry of model Cu(100) and Cu(111) catalyst surfaces in the adsorption and dissociation of CO2. It was found that the (100) face is more active in dissociating CO2 than the (111) face. Atomic oxygen formed after the dissociation of CO2 poisons the surface by blocking further adsorption of CO2. This "self-poisoning" mechanism explains the need to mix CO into the industrial feed for methanol production from CO2, as it scavenges the chemisorbed O. The HPSTM images show that the (100) surface breaks up into nanoclusters in the presence of CO2 at 20 Torr and above, producing active kink and step sites. If the surface is precovered with atomic oxygen, no such nanoclustering occurs.
引用
收藏
页码:8207 / 8211
页数:5
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