Sebastián Alarcón Villaseca scite author profile

Sebastián Alarcón Villaseca

2Publications

126Citation Statements Received

50Citation Statements Given

How they've been cited

109

How they cite others

Affiliations

Fritz Haber Institute of the Max Planck Society, Institut Jean Lamour, Max Planck Society

Publications

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Structure of the orthorhombic Al13Co4(100) surface using LEED, STM, andab initiostudies

et al. 2011

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In a combined scanning tunneling microscopy (STM), low-energy electron diffraction (LEED) and density functional theory (DFT) study of the surface of Al 13 Co 4 (100), all techniques have found that after annealing to 1165 K, the surface structure is consistent with a dense Al-rich plane with surface Co atom depletion. Various structure models were considered, and in the LEED study, the best agreement was found with a model that consists of Al-rich terminating planes with no Co atoms, and otherwise a structure similar to the bulk puckered layers. This structure was also found to be stable in the DFT study. The best-fit structural parameters are presented for the two domains of this structure, which contain bipentagons that can be related to the pentagonal bipyramidal structures in the bulk, plus additional "glue" atoms between them.These domains are not strictly related to each other by symmetry as they have different surface relaxations. The STM study found significant differences in the surfaces of samples grown by different methods, and is able to explain a different interpretation made in an earlier study.

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Structural Investigation of the (010) Surface of theAl13Fe4Catalyst

et al. 2013

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We have investigated the structure of the Al(13)Fe(4)(010) surface using both experimental and ab initio computational methods. The results indicate that the topmost surface layers correspond to incomplete puckered (P) planes present in the bulk crystal structure. The main building block of the corrugated termination consists of two adjacent pentagons of Al atoms, each centered by a protruding Fe atom. These motifs are interconnected via additional Al atoms referred to as "glue" atoms which partially desorb above 873 K. The surface structure of lower atomic density compared to the bulk P plane is explained by a strong Fe-Al-Fe covalent polar interaction that preserves intact clusters at the surface. The proposed surface model with identified Fe-containing atomic ensembles could explain the Al(13)Fe(4) catalytic properties recently reported in line with the site-isolation concept [M. Armbrüster et al., Nat. Mater. 11, 690 (2012)].

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