Electronic Signatures of all Four DNA Nucleosides in a Tunneling Gap

[Image: see text] Nucleosides diffusing through a 2 nm electron-tunneling junction generate current spikes of sub-millisecond duration with a broad distribution of peak currents. This distribution narrows 10-fold when one of the electrodes is functionalized with a reagent that traps nucleosides in a...

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Detalles Bibliográficos
Autores principales: Chang, Shuai, Huang, Shuo, He, Jin, Liang, Feng, Zhang, Peiming, Li, Shengqing, Chen, Xiang, Sankey, Otto, Lindsay, Stuart
Formato: Texto
Lenguaje:English
Publicado: American Chemical Society 2010
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2836180/
https://www.ncbi.nlm.nih.gov/pubmed/20141183
http://dx.doi.org/10.1021/nl1001185
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author Chang, Shuai
Huang, Shuo
He, Jin
Liang, Feng
Zhang, Peiming
Li, Shengqing
Chen, Xiang
Sankey, Otto
Lindsay, Stuart
author_facet Chang, Shuai
Huang, Shuo
He, Jin
Liang, Feng
Zhang, Peiming
Li, Shengqing
Chen, Xiang
Sankey, Otto
Lindsay, Stuart
author_sort Chang, Shuai
collection PubMed
description [Image: see text] Nucleosides diffusing through a 2 nm electron-tunneling junction generate current spikes of sub-millisecond duration with a broad distribution of peak currents. This distribution narrows 10-fold when one of the electrodes is functionalized with a reagent that traps nucleosides in a specific orientation with hydrogen bonds. Functionalizing the second electrode reduces contact resistance to the nucleosides, allowing them to be identified via their peak currents according to deoxyadenosine > deoxycytidine > deoxyguanosine > thymidine, in agreement with the order predicted by a density functional calculation.
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spelling pubmed-28361802010-03-11 Electronic Signatures of all Four DNA Nucleosides in a Tunneling Gap Chang, Shuai Huang, Shuo He, Jin Liang, Feng Zhang, Peiming Li, Shengqing Chen, Xiang Sankey, Otto Lindsay, Stuart Nano Lett [Image: see text] Nucleosides diffusing through a 2 nm electron-tunneling junction generate current spikes of sub-millisecond duration with a broad distribution of peak currents. This distribution narrows 10-fold when one of the electrodes is functionalized with a reagent that traps nucleosides in a specific orientation with hydrogen bonds. Functionalizing the second electrode reduces contact resistance to the nucleosides, allowing them to be identified via their peak currents according to deoxyadenosine > deoxycytidine > deoxyguanosine > thymidine, in agreement with the order predicted by a density functional calculation. American Chemical Society 2010-02-08 2010-03-10 /pmc/articles/PMC2836180/ /pubmed/20141183 http://dx.doi.org/10.1021/nl1001185 Text en Copyright © 2010 American Chemical Society http://pubs.acs.org This is an open-access article distributed under the ACS AuthorChoice Terms & Conditions. Any use of this article, must conform to the terms of that license which are available at http://pubs.acs.org.
spellingShingle Chang, Shuai
Huang, Shuo
He, Jin
Liang, Feng
Zhang, Peiming
Li, Shengqing
Chen, Xiang
Sankey, Otto
Lindsay, Stuart
Electronic Signatures of all Four DNA Nucleosides in a Tunneling Gap
title Electronic Signatures of all Four DNA Nucleosides in a Tunneling Gap
title_full Electronic Signatures of all Four DNA Nucleosides in a Tunneling Gap
title_fullStr Electronic Signatures of all Four DNA Nucleosides in a Tunneling Gap
title_full_unstemmed Electronic Signatures of all Four DNA Nucleosides in a Tunneling Gap
title_short Electronic Signatures of all Four DNA Nucleosides in a Tunneling Gap
title_sort electronic signatures of all four dna nucleosides in a tunneling gap
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2836180/
https://www.ncbi.nlm.nih.gov/pubmed/20141183
http://dx.doi.org/10.1021/nl1001185
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