Density functional theory study of hydrogen adsorption on Fe5C2(001), Fe5C2(110), and Fe5C2(100)

Cao DB; Zhang FQ; Li YW; Wang JG; Jiao HJ

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Density functional theory study of hydrogen adsorption on Fe5C2(001), Fe5C2(110), and Fe5C2(100)

机译：氢在Fe5C2（001），Fe5C2（110）和Fe5C2（100）上的吸附的密度泛函理论研究

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Density functional theory calculations have been carried out for hydrogen adsorption on the (001). (110). and (100) Surfaces of Fe5C2. At 1/3 and 2/3 monolyer (ML) on (001). the most stable hydrocarbon species is CsH, while CsH and CsH3 can coexist at 1 ML. Oil (110), only dissociated hydrogen is found at 2/5 ML, while CsH is the most stable hydrogen carbon species at 4/5 ML. and CsH and CH3 coexist at 6/5 ML. On (001) and (110) surfaces. CsH2 is less stable and can dissociate into CsH or convert into CsH3, respectively. These results are in agreement with the experimental observations. On the. metallic Fe5C2(100) surface which lacks surface carbon atoms on the surface monolayer, dissociated hydrogen is found at 1/2 ML, while both dissociated hydrogen and activated H-2 are found at 1 ML.

机译：已经对（001）上的氢吸附进行了密度泛函理论计算。（110）。（5）Fe5C2的表面。在（001）上的1/3和2/3单体（ML）上。最稳定的碳氢化合物是CsH，而CsH和CsH3可以1 ML共存。在油（110）中，仅在2/5 ML处发现离解的氢，而CsH在4/5 ML处是最稳定的氢碳。 CsH和CH3以6/5 ML共存。在（001）和（110）表面上。 CsH2的稳定性较差，可以分别解离为CsH或转化为CsH3。这些结果与实验观察结果一致。上了。金属Fe5C2（100）表面缺乏表面单层表面的碳原子，在1/2 ML处发现离解的氢，而在1 ML处发现离解的氢和活化的H-2。

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《The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical》 |2005年第2期|共12页
作者
Cao DB; Zhang FQ; Li YW; Wang JG; Jiao HJ;
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正文语种 eng
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FISCHER-TROPSCH SYNTHESIS; PRECIPITATED IRON CATALYSTS; TOTAL-ENERGY CALCULATIONS; ELECTRONIC-STRUCTURE; HYDROCARBON FORMATION; 1ST PRINCIPLES; CO ADSORPTION; SURFACE; CHEMISORPTION; NI(111);

机译：FISCHER-TROPSCH合成;专用铁催化剂;总能量计算;电子结构;烃形成;第一原理;CO吸附;表面;化学吸附;NI（111）;

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Density functional theory study of hydrogen adsorption on Fe5C2(001), Fe5C2(110), and Fe5C2(100)

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