Molecular Rectification in Metal−SAM−Metal Oxide−Metal Junctions
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Abstract
This Article compares the ability of self-assembled monolayers (SAMs) of alkanethiolates with ferrocene (Fc) head groups (SC(11)Fc), and SAMs of alkanethiolates lacking the Fc moiety (SC(10)CH(3) and SC(14)CH(3)), to conduct charge. Ultraflat surfaces of template-stripped silver (Ag(TS)) supported these SAMs, and a eutectic alloy of gallium and indium (EGaIn), covered with a skin of gallium oxide (presumably Ga(2)O(3)), formed electrical top-contacts with them. EGaIn is a liquid at room temperature, but its spontaneously formed surface oxide skin gives it apparent non-Newtonian properties and allows it to be molded into conically shaped tips; these tips formed soft electrical contacts with SAMs and formed stable SAM-based tunneling junctions in high (70-90%) yields. Measurements of current density, J, versus applied voltage, V, showed that tunneling junctions composed of SAMs of SC(11)Fc rectify current with a rectification ratio R approximately 1.0 x 10(2) (R = |J(-V)|/|J(V)| at +/-1 V and with a log-standard deviation of 3.0). In contrast, junctions lacking the Fc moiety, that is, junctions composed of SAMs of SC(n-1)CH(3) (with n = 11 or 15 and presenting terminal CH(3) groups), showed only slight rectification (R = 1.5 (1.4) and 2.1 (2.5), respectively). A statistical analysis of large numbers (N = 300-1000) of data gave detailed information about the spread in values and the statistical significance of the rectification ratios and demonstrated the ability of the experimental techniques described here to generate SAM-based junctions in high yield useful in physical-organic studies.
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