1.
Sato, F; Legoas, SB; Otero, R; Hummelink, F; Thostrup, P; Lægsgaard, E; Stensgaard, I; Besenbacher, F; Galvao, DS
Molecular Recognition Effects in the Surface Diffusion of Large Organic Molecules: The Case of Violet Lander Journal Article
In: arXiv preprint arXiv:0708.2915, 2007.
@article{sato2007molecular,
title = {Molecular Recognition Effects in the Surface Diffusion of Large Organic Molecules: The Case of Violet Lander},
author = {Sato, F and Legoas, SB and Otero, R and Hummelink, F and Thostrup, P and Lægsgaard, E and Stensgaard, I and Besenbacher, F and Galvao, DS},
url = {http://xxx.tau.ac.il/pdf/0708.2915.pdf},
year = {2007},
date = {2007-01-01},
journal = {arXiv preprint arXiv:0708.2915},
abstract = {Violet Lander (VL) (C108H104) is a large organic molecule that when deposited on Cu (110)
exhibited lock-and-key like behavior (Otero et al., Nature Mater. 3, 779 (2004)). In this work we
report on a detailed fully atomistic molecular dynamics study of this phenomenon. Our results show
that it has its physical basis in the interplay of the molecular hydrogens and the Cu(110) atomic
spacing, which is a direct consequence of an accidental commensurability between molecule and
surface dimensions. This knowledge could be used to engineer new molecules capable of displaying
lock-and-key behavior with new potential applications in nanotechology},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Violet Lander (VL) (C108H104) is a large organic molecule that when deposited on Cu (110)
exhibited lock-and-key like behavior (Otero et al., Nature Mater. 3, 779 (2004)). In this work we
report on a detailed fully atomistic molecular dynamics study of this phenomenon. Our results show
that it has its physical basis in the interplay of the molecular hydrogens and the Cu(110) atomic
spacing, which is a direct consequence of an accidental commensurability between molecule and
surface dimensions. This knowledge could be used to engineer new molecules capable of displaying
lock-and-key behavior with new potential applications in nanotechology
exhibited lock-and-key like behavior (Otero et al., Nature Mater. 3, 779 (2004)). In this work we
report on a detailed fully atomistic molecular dynamics study of this phenomenon. Our results show
that it has its physical basis in the interplay of the molecular hydrogens and the Cu(110) atomic
spacing, which is a direct consequence of an accidental commensurability between molecule and
surface dimensions. This knowledge could be used to engineer new molecules capable of displaying
lock-and-key behavior with new potential applications in nanotechology
2007
1.
Sato, F; Legoas, SB; Otero, R; Hummelink, F; Thostrup, P; Lægsgaard, E; Stensgaard, I; Besenbacher, F; Galvao, DS
Molecular Recognition Effects in the Surface Diffusion of Large Organic Molecules: The Case of Violet Lander Journal Article
In: arXiv preprint arXiv:0708.2915, 2007.
Abstract | Links | BibTeX | Tags: Molecular Dynamics, Molecular Machines, Organic-Inorganic Interfaces, Violet Landers
@article{sato2007molecular,
title = {Molecular Recognition Effects in the Surface Diffusion of Large Organic Molecules: The Case of Violet Lander},
author = {Sato, F and Legoas, SB and Otero, R and Hummelink, F and Thostrup, P and Lægsgaard, E and Stensgaard, I and Besenbacher, F and Galvao, DS},
url = {http://xxx.tau.ac.il/pdf/0708.2915.pdf},
year = {2007},
date = {2007-01-01},
journal = {arXiv preprint arXiv:0708.2915},
abstract = {Violet Lander (VL) (C108H104) is a large organic molecule that when deposited on Cu (110)
exhibited lock-and-key like behavior (Otero et al., Nature Mater. 3, 779 (2004)). In this work we
report on a detailed fully atomistic molecular dynamics study of this phenomenon. Our results show
that it has its physical basis in the interplay of the molecular hydrogens and the Cu(110) atomic
spacing, which is a direct consequence of an accidental commensurability between molecule and
surface dimensions. This knowledge could be used to engineer new molecules capable of displaying
lock-and-key behavior with new potential applications in nanotechology},
keywords = {Molecular Dynamics, Molecular Machines, Organic-Inorganic Interfaces, Violet Landers},
pubstate = {published},
tppubtype = {article}
}
Violet Lander (VL) (C108H104) is a large organic molecule that when deposited on Cu (110)
exhibited lock-and-key like behavior (Otero et al., Nature Mater. 3, 779 (2004)). In this work we
report on a detailed fully atomistic molecular dynamics study of this phenomenon. Our results show
that it has its physical basis in the interplay of the molecular hydrogens and the Cu(110) atomic
spacing, which is a direct consequence of an accidental commensurability between molecule and
surface dimensions. This knowledge could be used to engineer new molecules capable of displaying
lock-and-key behavior with new potential applications in nanotechology
exhibited lock-and-key like behavior (Otero et al., Nature Mater. 3, 779 (2004)). In this work we
report on a detailed fully atomistic molecular dynamics study of this phenomenon. Our results show
that it has its physical basis in the interplay of the molecular hydrogens and the Cu(110) atomic
spacing, which is a direct consequence of an accidental commensurability between molecule and
surface dimensions. This knowledge could be used to engineer new molecules capable of displaying
lock-and-key behavior with new potential applications in nanotechology
http://scholar.google.com/citations?hl=en&user=95SvbM8AAAAJ
