Publikation: Direct Measurement of Electrical Transport Through G-Quadruplex DNA with Mechanically Controllable Break Junction Electrodes
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2010
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Angewandte Chemie : International edition. 2010, 49(19), pp. 3313-3316. ISSN 1433-7851. eISSN 1521-3773. Available under: doi: 10.1002/anie.201000022
Zusammenfassung
The need for miniaturization of devices for future nanoelectronic applications has led to the search for new constituents in molecular electronics. DNA is particularly interesting for applications in nanoelectronics circuits owing to its inherent properties, such as the predictable size and selfassembly of the stacked nucleobase pairs. In recent years, charge transport in double-stranded DNA (dsDNA) has attracted considerable attention because of its potential use in building blocks for future nanoelectronic circuits.
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530 Physik
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break junctions
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LIU, Shou-Peng, Samuel H. WEISBROD, Zhuo TANG, Andreas MARX, Elke SCHEER, Artur ERBE, 2010. Direct Measurement of Electrical Transport Through G-Quadruplex DNA with Mechanically Controllable Break Junction Electrodes. In: Angewandte Chemie : International edition. 2010, 49(19), pp. 3313-3316. ISSN 1433-7851. eISSN 1521-3773. Available under: doi: 10.1002/anie.201000022BibTex
@article{Liu2010Direc-5326,
year={2010},
doi={10.1002/anie.201000022},
title={Direct Measurement of Electrical Transport Through G-Quadruplex DNA with Mechanically Controllable Break Junction Electrodes},
number={19},
volume={49},
issn={1433-7851},
journal={Angewandte Chemie : International edition},
pages={3313--3316},
author={Liu, Shou-Peng and Weisbrod, Samuel H. and Tang, Zhuo and Marx, Andreas and Scheer, Elke and Erbe, Artur}
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<dcterms:abstract xml:lang="eng">The need for miniaturization of devices for future nanoelectronic applications has led to the search for new constituents in molecular electronics. DNA is particularly interesting for applications in nanoelectronics circuits owing to its inherent properties, such as the predictable size and selfassembly of the stacked nucleobase pairs. In recent years, charge transport in double-stranded DNA (dsDNA) has attracted considerable attention because of its potential use in building blocks for future nanoelectronic circuits.</dcterms:abstract>
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