Observation and modeling of conformational molecular structures driving the self-assembly of tri-adamantyl benzene on Ag(111)

Bastien Calmettes; Nicolas Estrampes; Christophe Coudret; Thomas J. Roussel; Jordi Faraudo; Roland Coratger

doi:10.1039/c5cp06733b

Observation and modeling of conformational molecular structures driving the self-assembly of tri-adamantyl benzene on Ag(111)

Bastien Calmettes, Nicolas Estrampes, Christophe Coudret, Thomas J. Roussel, Jordi Faraudo, Roland Coratger

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© 2016 the Owner Societies. The self-organization of tri-adamantyl (TAB) benzene molecules has been investigated using low temperature scanning tunneling microscopy (LT-STM). The molecular structures have also been studied using molecular modeling. In particular, these calculations have been performed on large areas (1000 nm2) from the atomic structure of the molecular building block, combining molecular dynamics (MD) and Monte-Carlo (MC) approaches. These investigations show that the structure of the molecule and its flexibility allow for the formation of different networks as a function of surface coverage. The calculations demonstrate that the stability of the largest structures is obtained through the increase of the interfacial energy induced by the rotation of the adamantyl groups, a behavior whose consequences explain the subtle contrasts observed in the experimental STM images.

Idioma original	Anglès
Pàgines (de-a)	20281-20289
Revista	Physical Chemistry Chemical Physics
Volum	18
Número	30
DOIs	https://doi.org/10.1039/c5cp06733b
Estat de la publicació	Publicada - 1 de gen. 2016

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10.1039/c5cp06733b

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title = "Observation and modeling of conformational molecular structures driving the self-assembly of tri-adamantyl benzene on Ag(111)",

abstract = "{\textcopyright} 2016 the Owner Societies. The self-organization of tri-adamantyl (TAB) benzene molecules has been investigated using low temperature scanning tunneling microscopy (LT-STM). The molecular structures have also been studied using molecular modeling. In particular, these calculations have been performed on large areas (1000 nm2) from the atomic structure of the molecular building block, combining molecular dynamics (MD) and Monte-Carlo (MC) approaches. These investigations show that the structure of the molecule and its flexibility allow for the formation of different networks as a function of surface coverage. The calculations demonstrate that the stability of the largest structures is obtained through the increase of the interfacial energy induced by the rotation of the adamantyl groups, a behavior whose consequences explain the subtle contrasts observed in the experimental STM images.",

author = "Bastien Calmettes and Nicolas Estrampes and Christophe Coudret and Roussel, {Thomas J.} and Jordi Faraudo and Roland Coratger",

year = "2016",

month = jan,

day = "1",

doi = "10.1039/c5cp06733b",

language = "English",

volume = "18",

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Observation and modeling of conformational molecular structures driving the self-assembly of tri-adamantyl benzene on Ag(111). / Calmettes, Bastien; Estrampes, Nicolas; Coudret, Christophe et al.
In: Physical Chemistry Chemical Physics, Vol. 18, Núm. 30, 01.01.2016, pàg. 20281-20289.

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

TY - JOUR

T1 - Observation and modeling of conformational molecular structures driving the self-assembly of tri-adamantyl benzene on Ag(111)

AU - Calmettes, Bastien

AU - Estrampes, Nicolas

AU - Coudret, Christophe

AU - Roussel, Thomas J.

AU - Faraudo, Jordi

AU - Coratger, Roland

PY - 2016/1/1

Y1 - 2016/1/1

N2 - © 2016 the Owner Societies. The self-organization of tri-adamantyl (TAB) benzene molecules has been investigated using low temperature scanning tunneling microscopy (LT-STM). The molecular structures have also been studied using molecular modeling. In particular, these calculations have been performed on large areas (1000 nm2) from the atomic structure of the molecular building block, combining molecular dynamics (MD) and Monte-Carlo (MC) approaches. These investigations show that the structure of the molecule and its flexibility allow for the formation of different networks as a function of surface coverage. The calculations demonstrate that the stability of the largest structures is obtained through the increase of the interfacial energy induced by the rotation of the adamantyl groups, a behavior whose consequences explain the subtle contrasts observed in the experimental STM images.

AB - © 2016 the Owner Societies. The self-organization of tri-adamantyl (TAB) benzene molecules has been investigated using low temperature scanning tunneling microscopy (LT-STM). The molecular structures have also been studied using molecular modeling. In particular, these calculations have been performed on large areas (1000 nm2) from the atomic structure of the molecular building block, combining molecular dynamics (MD) and Monte-Carlo (MC) approaches. These investigations show that the structure of the molecule and its flexibility allow for the formation of different networks as a function of surface coverage. The calculations demonstrate that the stability of the largest structures is obtained through the increase of the interfacial energy induced by the rotation of the adamantyl groups, a behavior whose consequences explain the subtle contrasts observed in the experimental STM images.

U2 - 10.1039/c5cp06733b

DO - 10.1039/c5cp06733b

M3 - Article

SN - 1463-9076

VL - 18

SP - 20281

EP - 20289

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 30

ER -

Observation and modeling of conformational molecular structures driving the self-assembly of tri-adamantyl benzene on Ag(111)

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