Low-energy electron diffraction analysis of the buried heteroatom type Pd(100)-p(2 x 2)-p4g-Al surface

The structure of the p(2 x 2)-p4g ordered bimetallic phase formed on alumin um-deposited Pd(100) is determined by dynamical low-energy electron diffrac tion analysis. The best-fitted structure among 29 different model types exa mined consists of the Pd top layer clock-reconstructed to the hard sphere l imit, and a buckled c(2 x 2)-PdAl second layer. The buried-heteroatom schem e, a new mechanism of in-plane atom movements, is proposed to interpret the yielded structure; Al atoms migrate beneath the topmost Pd layer and repla ce half of the second-layer Pd atoms to demand optimum coordination. Pd-Al bonding interaction forces top-layer Pd atoms to move systematically toward s the buried Al. Half of the fourfold hollows of top layer are opened and t he other half are deformed as a result of the movements. The top and second layers of the reconstructed surface can be regarded as a surface-limited c ompound of Pd3Al composition supported on the Pd(100) substrate, because a reduced d-state overlap between the top two layers and the Pd substrate is expected. (C) 2000 Elsevier Science B.V. All rights reserved.