New Insights into Single-Molecule Junctions Using a Robust, Unsupervised Approach to Data Collection and Analysis

New Insights into Single-Molecule Junctions Using a Robust, Unsupervised Approach to Data Collection and Analysis

We have applied a new, robust and unsupervised approach to data collection, sorting and analysis that provides fresh insights into the nature of single-molecule junctions. Automation of tunneling current-distance (I(s)) spectroscopy facilitates the collection of very large data sets (up to 100 000 t...

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Bibliographic Details
Published in:Journal of the American Chemical Society Vol. 137; no. 31; pp. 9971 - 9981
Main Authors: Inkpen, Michael S, Lemmer, Mario, Fitzpatrick, Nathan, Milan, David C, Nichols, Richard J, Long, Nicholas J, Albrecht, Tim
Format: Journal Article
Language:English
Published: United States American Chemical Society 12-08-2015
Online Access:Get full text
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Summary:We have applied a new, robust and unsupervised approach to data collection, sorting and analysis that provides fresh insights into the nature of single-molecule junctions. Automation of tunneling current-distance (I(s)) spectroscopy facilitates the collection of very large data sets (up to 100 000 traces for a single experiment), enabling comprehensive statistical interrogations with respect to underlying tunneling characteristics, noise and junction formation probability (JFP). We frequently observe unusual low-to-high through-molecule conductance features with increasing electrode separation, in addition to numerous other “plateau” shapes, which may be related to changes in interfacial or molecular bridge structure. Furthermore, for the first time we use the JFP to characterize the homogeneity of functionalized surfaces at the nanoscale.
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ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.5b05693