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Temperature-dependent templated growth of porphine thin films on the (111) facets of copper and silver

Temperature-dependent templated growth of porphine thin films on the (111) facets of copper and silver

K. Diller, F. Klappenberger, F. Allegretti, A. C. Papagergiou, S. Fischer, D. A. Duncan, R. J. Maurer, J. A. Lloyd, S. Cheol Oh, K. Reuter, J. V. Barth, J. Chem. Phys. 141, 144703 (2014)

"Using X-ray photoelectron spectroscopy, NEXAFS and Density Functional Theory we show the coverage dependent adlayer structure of porphine films"

The templated growth of the basic porphyrin unit, free-base porphine (2H-P), is characterized by means of X-ray photoelectron spectroscopy (XPS) and near-edge X-rayabsorption fine-structure(NEXAFS) spectroscopy measurements and density functional theory (DFT). The DFTsimulations allow the deconvolution of the complex XPS and NEXAFS signatures into contributions originating from five inequivalent carbonatoms, which can be grouped into C–N and C–C bonded species. Polarization-dependent NEXAFS measurements reveal an intriguing organizational behavior: On both Cu(111) and Ag(111), for coverages up to one monolayer, the molecules adsorb undeformed and parallel to the respective metal surface. Upon increasing the coverage, however, the orientation of the molecules in the thin films depends on the growthconditions. Multilayers deposited at low temperatures exhibit a similar average tilting angle (30° relative to the surface plane) on both substrates. Conversely, for multilayers grown at room temperature a markedly different scenario exists. On Cu(111) the film thickness is self-limited to a coverage of approximately two layers, while on Ag(111) multilayers can be grown easily and, in contrast to the bulk 2H-P crystal, the molecules are oriented perpendicular to the surface. This difference in molecular orientation results in a modified line-shape of the C 1 XPSsignatures, which depends on the incident photon energy and is explained by comparison with depth-resolved DFT calculations. Simulations of ionization energies for differently stacked molecules show no indication for a packing-induced modification of the multilayer XP spectra, thus indicating that the comparison of single molecule calculations to multilayerdata is justified.

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porphine multilayer