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Stable anchoring chemistry for room temperature charge transport through graphite-molecule contacts
- Source :
- Science Advances
- Publisher :
- Amer Assoc Advancement Science
-
Abstract
- Room temperature molecular electronics get one step closer to reality by exploiting chemical contacts between a single molecule and graphite.<br />An open challenge for single-molecule electronics is to find stable contacts at room temperature with a well-defined conductance. Common coinage metal electrodes pose fabrication and operational problems due to the high mobility of the surface atoms. We demonstrate how molecules covalently grafted onto mechanically robust graphite/graphene substrates overcome these limitations. To this aim, we explore the effect of the anchoring group chemistry on the charge transport properties of graphite-molecule contacts by means of the scanning tunneling microscopy break-junction technique and ab initio simulations. Molecules adsorbed on graphite only via van der Waals interactions have a conductance that decreases exponentially upon stretching the junctions, whereas the molecules bonded covalently to graphite have a single well-defined conductance and yield contacts of unprecedented stability at room temperature. Our results demonstrate a strong bias dependence of the single-molecule conductance, which varies over more than one order of magnitude even at low bias voltages, and show an opposite rectification behavior for covalent and noncovalent contacts. We demonstrate that this bias-dependent conductance and opposite rectification behavior is due to a novel effect caused by the nonconstant, highly dispersive density of states of graphite around the Fermi energy and that the direction of rectification is governed by the detailed nature of the molecule/graphite contact. Combined with the prospect of new functionalities due to a strongly bias-dependent conductance, these covalent contacts are ideal candidates for next-generation molecular electronic devices.
- Subjects :
- Graphite electrodes
anchoring group effect
Nanotechnology
02 engineering and technology
Charge transport
010402 general chemistry
STM break junction technique
01 natural sciences
law.invention
symbols.namesake
Single molecule conductance
law
Molecule
Graphite
Research Articles
Multidisciplinary
Chemistry
Graphene
Conductance
SciAdv r-articles
Fermi energy
021001 nanoscience & nanotechnology
0104 chemical sciences
Applied Sciences and Engineering
electrochemistry
Chemical physics
symbols
Density of states
van der Waals force
Scanning tunneling microscope
0210 nano-technology
Research Article
Subjects
Details
- Database :
- OpenAIRE
- Journal :
- Science Advances
- Accession number :
- edsair.doi.dedup.....4cd3be9e1ea3ef0c1f147d5530781089