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Out‐Of‐Plane Metal Coordination for a True Solvent‐Free Building with Molecular Bricks: Dodging the Surface Ligand Effect for On‐Surface Vacuum Self‐Assembly

Alessio Orbelli Biroli, Alberto Calloni, Alberto Bossi, M. S. Jagadeesh, Guglielmo Albani, Lamberto Duò, F. Ciccacci, A. Goldoni, Alberto Verdini, Luca Schio, Luca Floreano, Gianlorenzo Bussetti

2021Advanced Functional Materials16 citationsDOIOpen Access PDF

Abstract

Abstract The desirable self‐assembly (SA) of repeated 2D stacked layers requires a “holistic analysis” of three interconnected components: the electrode, the interface, and the molecular component; among them, the contact interface bears the largest burden responsibilities. Epitaxial growth (EG) of coherent 2D+ n stacked heterojunction by solvent‐free deposition holds great promise, although the feasibility has never been demonstrated given multiple drawbacks (e.g., surface‐ligand effect, SLE). Here, it is demonstrated how a coherent 2D+ n ( n = 3) layered heterorganic film is grown on an archetypal Fe metal electrode. The groundbreaking achievement is the result of the in‐vacuum integration of: i) chemical decoupling of the basal organic layer (a Zn II ‐tetraphenylporphyrine, ZnTPP) from the metal electrode, ii) 2D‐ordering of the ZnTPP commensurate to the substrate, iii) rigid, stoichiometric, and orthogonally arranged, the molecule‐to‐molecule coupling between ZnTPP and a ditopic linear bridging ligand (i.e., DPNDI) guided by SA coordination chemistry, and iv) sharp (chemical) termination of the layered film.

Topics & Concepts

Materials scienceMoleculeElectrodeLigand (biochemistry)Decoupling (probability)HeterojunctionMetalStoichiometryNanotechnologyChemical physicsOptoelectronicsPhysical chemistryChemistryOrganic chemistryMetallurgyReceptorControl engineeringEngineeringBiochemistrySurface Chemistry and CatalysisMolecular Junctions and NanostructuresGraphene research and applications
Out‐Of‐Plane Metal Coordination for a True Solvent‐Free Building with Molecular Bricks: Dodging the Surface Ligand Effect for On‐Surface Vacuum Self‐Assembly | Litcius