Mohammad S, Bisht N, Kannan A, Brandmeier A, Neiß C, Görling A, Stöhr M, Maier S (2025)
Publication Type: Journal article
Publication year: 2025
Book Volume: 755
Article Number: 122701
DOI: 10.1016/j.susc.2025.122701
The self-assembly of pyridyl-functionalized triazine (T4PT) was studied on Au(111) using low-temperature scanning tunneling microscopy (STM) under ultra-high vacuum conditions combined with density functional theory (DFT) calculations. In particular, we investigated the effect of temperature on the intermolecular interactions within the assemblies. STM measurements revealed that T4PT molecules formed a well-ordered, close-packed structure, with the molecules adopting a planar conformation parallel to the Au surface for coverages ≤1 monolayer upon room temperature deposition. The intermolecular interactions stabilizing the self-assembled arrangement are based on a combination of hydrogen bonding and weak van der Waals forces. Upon post-deposition annealing up to 200∘C, the assemblies were additionally stabilized by metal–ligand bonding between the pyridyl ligands and native Au adatoms. Further post-deposition annealing at temperatures above 200∘C led to the breaking of the N-Au bonds with the molecular assemblies transforming into a second close-packed hydrogen-bonded structure. For temperatures exceeding 230∘C, few covalently linked dimers formed, most likely as a result of CH-bond activation. We rationalize the kinetically-driven structure formation by unveiling the interaction strengths of the different bonding motifs using DFT and compare the respective molecular conformations to the ones of the structurally similar pyridyl-functionalized benzene (T4PB).
APA:
Mohammad, S., Bisht, N., Kannan, A., Brandmeier, A., Neiß, C., Görling, A.,... Maier, S. (2025). Pyridyl-functionalized tripod molecules on Au(111): Interplay between H-bonding and metal coordination. Surface Science, 755. https://doi.org/10.1016/j.susc.2025.122701
MLA:
Mohammad, Sajjan, et al. "Pyridyl-functionalized tripod molecules on Au(111): Interplay between H-bonding and metal coordination." Surface Science 755 (2025).
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