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Hierarchical Self-Assembly and Conformation of Tb Double-Decker Molecular Magnets: Experiment and Molecular Dynamics.

Patrick LawesMauro BoeroRabei BarhoumiSvetlana KlyatskayaMario RubenJean-Pierre Bucher
Published in: Nanomaterials (Basel, Switzerland) (2023)
Nanostructures, fabricated by locating molecular building blocks in well-defined positions, for example, on a lattice, are ideal platforms for studying atomic-scale quantum effects. In this context, STM data obtained from self-assembled Bis(phthalocyaninato) Terbium (III) (TbPc 2 ) single-molecule magnets on various substrates have raised questions about the conformation of the TbPc 2 molecules within the lattice. In order to address this issue, molecular dynamics simulations were carried out on a 2D assembly of TbPc 2 molecules. The calculations are in excellent agreement with the experiment, and thus improve our understanding of the self-assembly process. In particular, the calculated electron density of the molecular assembly compares well with STM contrast of self-assembled TbPc 2 on Au(111), simultaneously providing the conformation of the two Pc ligands of the individual double-decker molecule. This approach proves valuable in the identification of the STM contrast of LnPc 2 layers and could be used in similar cases where it is difficult to interpret the STM images of an assembly of molecular complexes.
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