Suchergebnisse

The intermolecular interaction among phthalocyanine molecules deposited on Ag(111) has been investigated at submonolayer coverages. By means of infrared absorption spectroscopy and spot-profile analysis low-energy electron diffraction, unambiguous evidence for an attractive interaction between neighboring titanyl-phthalocyanine (TiOPc) molecules is found for dilute layers, which is in contrast to the intermolecular repulsion reported for the copper-phthalocyanine (CuPc)/Ag(111) system. Accordingly, the formation of dense two-dimensional islands of TiOPc molecules with a well-defined long-range order (commensurate phase) is observed upon cooling to temperatures below 75 K, while a disordered arrangement is retained for adsorbed CuPc. Using density functional theory (DFT) calculations as a guide, these differences have been traced to the competition of attractive van der Waals and repulsive electrostatic interactions. Specifically, the vertically oriented molecular dipoles are substantially smaller for adsorbed TiOPc as compared to CuPc due to a compensation of the oppositely oriented dipole moments arising from the Pauli push-back effect on the one hand and the internal molecular dipole associated with the axial Ti–O group on the other. A detailed account and comparison of the molecule–substrate interaction, molecular binding geometries, and intermolecular interactions of TiOPc and CuPc on the Ag(111) surface are provided in a theoretical analysis based on DFT. ; We gratefully acknowledge support from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation), Project ID 223848855-SFB 1083 "Structure and Dynamics of Internal Interfaces". L.F. acknowledges financial support from the European Union's Horizon 2020 research and innovation program under the Marie Skłodowska-Curie grant agreement MagicFACE no. 797109. D.S.-P. and A.X.B.-R. acknowledge the Spanish Agencia Estatal de Investigación (grant nos. MAT2016-78293-C6-4-R and PID2019-107338RB-C66) and Dep. Educación of the Basque Government and UPV/EHU (grant no. IT1246-19) for support. ; Peer reviewed