2010
DOI: 10.1021/jp1012957
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Self-Assembly and Properties of Nonmetalated Tetraphenyl-Porphyrin on Metal Substrates

Abstract: IntroductionThe self-assembly of porphyrins on well-defined surfaces is attracting considerable interest because it promises to create surface patterns with nanometer dimension that exhibit specific electronic, sensoric, optic, or catalytic functionality 1-3 or even interesting magnetic properties. 4,5 The ability of porphyrin to show self-organization and to accommodate metal atoms in their macrocycle is exploited, for instance, to form metal−organic frameworks or adsorbed layers for catalysis. [6][7][8][9] T… Show more

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Cited by 103 publications
(148 citation statements)
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“…For instance, tetraphenylporphyrin molecules, 2H-TPP, were observed to experience attractive intermolecular forces on Ag(111), but repulsive interactions on Cu(111) due to the charge pillow effect. 49 This is consistent with the formation of ZI nano gratings on Cu(111) in this study.…”
Section: Long-range Surface-mediated Interactionssupporting
confidence: 91%
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“…For instance, tetraphenylporphyrin molecules, 2H-TPP, were observed to experience attractive intermolecular forces on Ag(111), but repulsive interactions on Cu(111) due to the charge pillow effect. 49 This is consistent with the formation of ZI nano gratings on Cu(111) in this study.…”
Section: Long-range Surface-mediated Interactionssupporting
confidence: 91%
“…As can be seen, the energies per molecule vary from −0.1 to −4 meV. These calculated energies need to be compared to typical energies of H-bonds (170-650 meV), 36 van der Waals bonds (<50 meV), 37 CH-π bonds (60-100 meV), 38 π-π bonds (100 meV), 38 and metal-ligand bonds (500-2000 meV). 38 For an additional comparison, the difference in bonding site energies for adsorbed ZI on the Au(111) surface was reported to be 40 meV, 19 which by itself was declared inconsequentially small.…”
Section: B Analysis Of the Dipole-dipole Interactionmentioning
confidence: 99%
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“…107 The very different behaviour found here for 2HTTBPP on Cu(111) (y = 5 AE 51 and f = 35 AE 51) is a strong indication of considerable stabilizing interactions. For the concave conformation, this interpretation is in line with a strong attractive interaction between the iminic nitrogen atoms and the Cu substrate, by which the porphyrin macrocycle is literally ''pulled'' towards the surface; 34,35,53,55,79 the reason for the convex conformation, however, is not readily accessible. Here lateral interactions also must play a role and it will be later discussed that this conformation is entropically stabilized.…”
Section: Conformational Switching Of Porphyrin Moleculesmentioning
confidence: 89%
“…Self-assembled monolayers of metallated porphyrin and other porphyrin derivatives on top of metal substrates have been thoroughly examined in previous studies. [28][29][30] Rojas et al 29 examined a range of metallated and non-metallated porphyrin derivatives on top of metal substrates and found that a subtle balance between molecule-molecule and molecule-substrate interactions governs the occurrence of self-assembly. Whereas most porphyrin molecules selfassemble into closely packed monolayers, H 2 TPP adsorbates are arranged randomly on top of Cu(111) indicating strong molecule-substrate interaction in terms of charge transfer.…”
Section: Resultsmentioning
confidence: 99%