Directional Control in Thermally Driven Single-Molecule Nanocars

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13 October 2005

journal article
letter
Published by American Chemical Society (ACS) in Nano Letters

Vol. 5 (11) , 2330-2334
https://doi.org/10.1021/nl051915k

Abstract

With the hope of directing future bottom-up fabrication through bulk external stimuli (such as electric fields) on nanometer-sized transporters, we sought to study controlled molecular motion on surfaces through the rational design of surface-capable molecular structures called nanocars. Here we show that the observed movement of the nanocars is a new type of fullerene-based wheel-like rolling motion, not stick−slip or sliding translation, due to evidence including directional preference in both direct and indirect manipulation and studies of related molecular structures.

Keywords

This publication has 24 references indexed in Scilit:

Bond Breaking Coupled with Translation in Rolling of Covalently Bound Molecules
Physical Review Letters, 2005
Artificial Molecular Rotors
Chemical Reviews, 2005
A Molecular Elevator
Science, 2004
Adsorption of C₆₀on the Si(001) surface calculated within the generalized gradient approximation
Nanotechnology, 2003
Properties of large organic molecules on metal surfaces
Progress in Surface Science, 2003
$C_{60}$ Molecular Bearings
Physical Review Letters, 2003
Organic Molecules Acting as Templates on Metal Surfaces
Science, 2002
Low temperature manipulation of big molecules in constant height mode
Applied Physics Letters, 2001
The Molecular Abacus: STM Manipulation of Cyclodextrin Necklace
Journal of the American Chemical Society, 2000
Atomic Scale Sliding and Rolling of Carbon Nanotubes
Physical Review Letters, 1999