Metalation of 2HTCNPP on Ag(111) with Zn: Evidence for the Sitting atop Complex at Room Temperature

Kuliga, Jan; Ferreirra, Rodrigo Cezar de Campos; Adhikari, Rajan; Massicot, Stephen; Lepper, Michael; Hölzel, Helen; Jux, Norbert; Marbach, Hubertus; Siervo, Abner de; Steinrück, Hans‐Peter

doi:10.1002/cphc.202000883

Cited by 6 publications

(8 citation statements)

References 35 publications

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“…This conformation differs from the square symmetry of the conventional “saddle-shaped” configuration in which the two iminic nitrogens are almost parallel to the substrate’s surface. The saddle conformation is typically found in porphyrins on less reactive substrates such as Ag(111). , Our DFT calculations find that the saddle shape is 0.86 eV higher in energy (less stable) than the inverted structure on Cu(111), explaining why our STM images at RT only show rectangular-shaped molecules.…”

Section: Resultsmentioning

confidence: 61%

“…On Cu(111), however, our STM measurements clearly show that the molecules in the metal–organic framework (MOF) assume the inverted conformation. This finding is interesting because usually porphyrin molecules in 2D networks on metallic surfaces adopt a molecular structure with a low diffusion barrier, ,, and the studies involving porphyrins in inverted conformations reported recently do not present any ordered motifs with the molecule in this configuration. , This demonstrates the importance of this new growth protocol. The 2D hexagonal arrangement shown in Figure b has an experimental lattice angle α ≈ 62 ± 3°.…”

Section: Resultsmentioning

confidence: 67%

“…The saddle conformation is typically found in porphyrins on less reactive substrates such as Ag(111). 17,39 Our DFT calculations find that the saddle shape is 0.86 eV higher in energy (less stable) than the inverted structure on Cu(111), explaining why our STM images at RT only show rectangular-shaped molecules.…”

Section: ■ Results and Discussionmentioning

confidence: 79%

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Reassessing the Adsorption Behavior and on-Surface Reactivity of a Brominated Porphyrin on Cu(111)

et al. 2021

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On-surface coupling reactions and molecular conformation are essential processes for building tailored functional molecular nanostructures. Here, we study the thermal debromination and reactivity of free-base tetra(4-bromophenyl)porphyrin (H 2 TBrPP) on Cu(111) as a function of the substrate temperature. It has been previously reported in the literature that C−Br bonds remain intact at room temperature (RT) and that the Br•••Cu(111) interaction induces a drastic surface reconstruction around the molecule periphery and a distortion in the adsorbate itself. However, based on a combination of STM and XPS experiments, supported by density functional theory (DFT) calculations, we instead demonstrate that debromination readily occurs at RT, leading to a new interpretation of both the adsorption behavior and the molecular coupling of H 2 TBrPP on Cu(111). For the molecules deposited on the metallic substrate held above RT, our STM measurements show the growth of ordered 2D metal−organic frameworks (MOFs).

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Section: Resultsmentioning

confidence: 61%

Section: Resultsmentioning

confidence: 67%

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Reassessing the Adsorption Behavior and on-Surface Reactivity of a Brominated Porphyrin on Cu(111)

et al. 2021

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“…In the self-assemblies CN-groups are oriented at 90 • angle to the axis of the cyanophenyl ring of a neighboring molecule, as observed on other substrates before [10,32,62,63]. For the stabilization of the supramolecular assembly via the CN-groups [64] hydrogen bonding to the pyrrole group [62] or the phenyl rings [32] has to be considered.…”

Section: Density Functional Theorymentioning

confidence: 99%

Adsorption, self-assembly and self-metalation of tetra-cyanophenyl porphyrins on semiconducting CoO(100) films

2022

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“…As a bottom-up approach, on-surface synthesis has demonstrated its great potentials in constructing low-dimensional molecular nanostructures and materials with atomic precision. , Moreover, recent advances in scanning probe microscopes allows probing on-surface chemical reaction processes at the single chemical bond level. − It has been demonstrated that porphyrins can undergo a number of reactions on the surface to form porphyrinoids and related hybrid nanostructures that are hardly accessible in conventional solution chemistry (Table S1). − Most of these reactions are based on the reactivity at the β- and meso -positions (Figure a). For example, thermal treatment of fluorinated tetraphenylporphyrins on the Au(111) surface can induce intramolecular cyclization of the β-pyrrolic carbon with the ortho -carbon and thus form five-membered rings attached to the molecules.…”

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confidence: 99%

Aromatic Ring Fusion to Benzoporphyrin via γ-ortho Cyclodehydrogenation on a Ag(111) Surface

Yang

Duan

et al. 2022

ACS Nano

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Aromatic ring fusion to porphyrins and their derivatives represents an attractive route to tune the molecular conjugation and thus expand their functionalities. Here, we report the expansion of the aromatic π-system of palladium tetraphenyltetrabenzoporphyrins (Pd-TPTBP) via surface-assisted γ-ortho cyclodehydrogenation on Ag(111). The chemical transformation of Pd-TPTBP into different products at an elevated temperature of 600 K was revealed at the singlemolecule level using bond-resolved scanning tunneling microscopy with a CO-functionalized tip. We captured a series of γortho cyclodehydrogenation products, wherein the maximum extent to which the reaction can progress is associated with 7fold C−C formation to afford nearly planar γ-ortho fused porphyrins with 66 conjugated π-electrons. In addition, a small number of molecules undergo C−C bond dissociation of meso-phenyl at elevated temperature, producing fully planar γ-ortho fused products lacking one or two phenyl moieties. Scanning tunneling spectroscopy measurements and DFT calculations suggest the electronic gap of the γ-ortho fused porphyrin decreases compared to that of the precursor. The HOMO and LUMO of the planar γ-ortho fused products are localized on the partially fused benzo moieties and the meso-position, respectively.

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Metalation of 2HTCNPP on Ag(111) with Zn: Evidence for the Sitting atop Complex at Room Temperature

Cited by 6 publications

References 35 publications

Reassessing the Adsorption Behavior and on-Surface Reactivity of a Brominated Porphyrin on Cu(111)

Reassessing the Adsorption Behavior and on-Surface Reactivity of a Brominated Porphyrin on Cu(111)

Adsorption, self-assembly and self-metalation of tetra-cyanophenyl porphyrins on semiconducting CoO(100) films

Aromatic Ring Fusion to Benzoporphyrin via γ-ortho Cyclodehydrogenation on a Ag(111) Surface

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