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Conduction of DNA molecules attached to a disconnected array of metallic Ga nanoparticles

We have investigated the conduction over a wide range of temperature of $λ$ DNA molecules deposited across slits etched through a few nanometers thick platinum film. The slits are insulating before DNA deposition but contain metallic Ga nanoparticles, a result of focused ion beam etching. When these nanoparticles are superconducting we find that they can induce superconductivity through the DNA molecules, even though the main electrodes are non superconducting. These results indicate that minute metallic particles can easily transfer charge carriers to attached DNA molecules and provide a possible reconciliation between apparently contradictory previous experimental results concerning the length over which DNA molecules can conduct electricity.

preprint2010arXivOpen access
A. D. ChepelianskiiD. KlinovA. KasumovS. GuéronO. PietrementS. LyonnaisH. Bouchiat
cond-mat.mes-hall
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Open access7 authors1 topic
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A. D. ChepelianskiiD. KlinovA. KasumovS. GuéronO. PietrementS. LyonnaisH. Bouchiat

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