The influence of ortho -methyl substitution in organometallic self-assembly-a comparative study on Cu(111) vs. Ag(111)

Massimo Fritton; Katrin Otte; Jonas Björk; Pronay Kumar Biswas; Wolfgang M. Heckl; Michael Schmittel; Markus Lackinger

doi:10.1039/c8cc04854a

The influence of ortho -methyl substitution in organometallic self-assembly-a comparative study on Cu(111) vs. Ag(111)

Massimo Fritton, Katrin Otte, Jonas Björk, Pronay Kumar Biswas, Wolfgang M. Heckl, Michael Schmittel, Markus Lackinger

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Abstract

Metal surface-induced dehalogenation of precursors is known to initiate self-assembly of organometallic networks, where tectons are connected via carbon-metal-carbon (C-M-C) bonds. Even though reversibility of the C-M-C bonds facilitates structural equilibration, defects associated with highly bent organometallic linkages are still commonly observed. By introducing a steric hindrance to reduce the C-M-C bond angle flexibility, we find well ordered organometallic networks of an ortho-methyl substituted 1,3,5-tris(p-bromophenyl)benzene analogue on Cu(111) after room-temperature (RT) deposition and on Ag(111) after annealing.

Original language	English
Pages (from-to)	9745-9748
Number of pages	4
Journal	Chemical Communications
Volume	54
Issue number	70
DOIs	https://doi.org/10.1039/c8cc04854a
State	Published - 2018

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abstract = "Metal surface-induced dehalogenation of precursors is known to initiate self-assembly of organometallic networks, where tectons are connected via carbon-metal-carbon (C-M-C) bonds. Even though reversibility of the C-M-C bonds facilitates structural equilibration, defects associated with highly bent organometallic linkages are still commonly observed. By introducing a steric hindrance to reduce the C-M-C bond angle flexibility, we find well ordered organometallic networks of an ortho-methyl substituted 1,3,5-tris(p-bromophenyl)benzene analogue on Cu(111) after room-temperature (RT) deposition and on Ag(111) after annealing.",

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T1 - The influence of ortho -methyl substitution in organometallic self-assembly-a comparative study on Cu(111) vs. Ag(111)

AU - Fritton, Massimo

AU - Otte, Katrin

AU - Björk, Jonas

AU - Biswas, Pronay Kumar

AU - Heckl, Wolfgang M.

AU - Schmittel, Michael

AU - Lackinger, Markus

PY - 2018

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AB - Metal surface-induced dehalogenation of precursors is known to initiate self-assembly of organometallic networks, where tectons are connected via carbon-metal-carbon (C-M-C) bonds. Even though reversibility of the C-M-C bonds facilitates structural equilibration, defects associated with highly bent organometallic linkages are still commonly observed. By introducing a steric hindrance to reduce the C-M-C bond angle flexibility, we find well ordered organometallic networks of an ortho-methyl substituted 1,3,5-tris(p-bromophenyl)benzene analogue on Cu(111) after room-temperature (RT) deposition and on Ag(111) after annealing.

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The influence of ortho -methyl substitution in organometallic self-assembly-a comparative study on Cu(111) vs. Ag(111)

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