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Voltage-Driven Conformational Switching with Distinct Raman Signature in a Single-Molecule Junction

Author(s):

Hai Bi, Carlos-Andres Palma, Yuxiang Gong, Peter Hasch, Mark Elbing, Marcel Mayor, Joachim Reichert, Johannes V. Barth

Journal:

Journal of the American Chemical Society

Year:

2018

Volume:

140

Pages

4835–4840

DOI:

10.1021/jacs.7b12818

Abstract:

Precisely controlling well-defined, stable single-molecule junctions represents a pillar of single-molecule electronics. Early attempts to establish computing with molecular switching arrays were partly challenged by limitations in the direct chemical characterization of metal–molecule–metal junctions. While cryogenic scanning probe studies have advanced the mechanistic understanding of current- and voltage-induced conformational switching, metal–molecule–metal conformations are still largely inferred from indirect evidence. Hence, the development of robust, chemically sensitive techniques is instrumental for advancement in the field. Here we probe the conformation of a two-state molecular switch with vibrational spectroscopy, while simultaneously operating it by means of the applied voltage. Our study emphasizes measurements of single-molecule Raman spectra in a room-temperature stable single-molecule switch presenting a signal modulation of nearly 2 orders of magnitude.

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