Abstract
The adsorption of iron phthalocyanine (FePc) on the passivated H/Si(111) surface is explored from first principles. We find that the organic molecule is predominantly physisorbed with a distance to the surface of $2.6 \pm 0.1$ Angstrom, but also exhibits sizable resonance with the underlying substrate. This establishes the present system as interesting mixed covalent-van-der-Waals-bound test case, which we use to compare the impact of different approaches to van-der-Waals interactions. (Spin-polarized) scanning tunneling microscopy (SP STM) images are simulated, selectively accessing different molecular orbitals via the applied bias voltage in the spirit of scanning tunneling spectroscopy. Comparison with experimental STM images reveals very good agreement. We find a significant magnetic contrast exceeding $\pm 1$ Angstrom in the SP STM images for $-2$ and $+1.5$ V. Binding energies of different (transition metal) atoms in the center of the Pc ring are presented, which particularly show that Fe is strongly bound in the molecule (about $9.6$ eV). Finally, we discuss different reactions for subsurface doping by room-temperature FePc deposition and point out two feasible reactions.
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