Molecularly inherent voltage-controlled conductance switching

被引:0
|
作者
Amy Szuchmacher Blum
James G. Kushmerick
David P. Long
Charles H. Patterson
John C. Yang
Jay C. Henderson
Yuxing Yao
James M. Tour
Ranganathan Shashidhar
Banahalli R. Ratna
机构
[1] Center for Bio/Molecular Science and Engineering,Department of Chemistry and Center for Nanoscale Science and Technology
[2] Naval Research Laboratory,Department of Biochemistry
[3] Rice University,undefined
[4] Shimadzu Scientific Instruments,undefined
[5] Inc.,undefined
[6] Duke University,undefined
[7] Geo-Centers,undefined
[8] Inc.,undefined
来源
Nature Materials | 2005年 / 4卷
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摘要
Molecular electronics has been proposed as a pathway for high-density nanoelectronic devices. This pathway involves the development of a molecular memory device based on reversible switching of a molecule between two conducting states in response to a trigger, such as an applied voltage. Here we demonstrate that voltage-triggered switching is indeed a molecular phenomenon by carrying out studies on the same molecule using three different experimental configurations—scanning tunnelling microscopy, crossed-wire junction, and magnetic-bead junction. We also demonstrate that voltage-triggered switching is distinctly different from stochastic switching, essentially a transient (time-dependent) phenomenon that is independent of the applied voltage.
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页码:167 / 172
页数:5
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