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W2088897692 abstract "Glassy carbon (GC) surfaces modified with monolayers of biphenyl and nitrobiphenyl molecules were examined as voltammetric electrodes for ferrocene, benzoquinone, and tetracyanoquinodimethane electrochemistry in acetonitrile. The modified electrodes exhibited slower electron transfer than unmodified GC, by factors that varied with the monolayer and redox system. However, after a negative potential excursion to ∼−2.0 V versus Ag+/Ag, the modified electrodes exhibited much faster electron-transfer kinetics, approaching those observed on unmodified GC. The effect is attributed to an apparently irreversible structural change in the biphenyl or nitrobiphenyl monolayer, which increases the rate of electron tunneling. The transition to the “ON” state is associated with electron injection into the monolayer similar to that observed in previous spectroscopic investigations and causes a significant decrease in the calculated HOMO−LUMO gap for the monolayer molecule. Once the monolayer is switched ON, it supports rapid electron exchange with outer-sphere redox systems, but not with dopamine, which requires adsorption to the GC surface. The increase in electron-transfer rate with electron injection is consistent with an increase in electron tunneling rate through the monolayer, caused by a significant decrease in tunneling barrier height. The ON electrode can reduce biphenyl- or nitrobiphenyldiazonium reagent in solution to permit formation of a second modification layer of biphenyl or nitrobiphenyl molecules. This “double derivatization” procedure was used to prepare tetraphenyl- and nitrotetraphenyl-modified electrodes, which exhibit significantly slower electron transfer than their biphenyl and nitrobiphenyl counterparts. A “switching” electrode may have useful properties for electroanalytical applications and possibly in electrocatalysis. In addition, the ON state represents an “organic electrode” in which electron transfer occurs at an interface between an organic conductor and a solution rather than an interface between a solution and a metal or carbon electrode." @default.
W2088897692 created "2016-06-24" @default.
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W2088897692 date "2002-12-12" @default.
W2088897692 modified "2023-09-26" @default.
W2088897692 title "Modified Carbon Surfaces as “Organic Electrodes” That Exhibit Conductance Switching" @default.
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W2088897692 cites W1976572795 @default.
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W2088897692 cites W1979776957 @default.
W2088897692 cites W1985755232 @default.
W2088897692 cites W1992249905 @default.
W2088897692 cites W1992928973 @default.
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W2088897692 cites W2017021058 @default.
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W2088897692 cites W2017997919 @default.
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W2088897692 cites W2018610761 @default.
W2088897692 cites W2021426946 @default.
W2088897692 cites W2021458657 @default.
W2088897692 cites W2022340280 @default.
W2088897692 cites W2027327489 @default.
W2088897692 cites W2028787256 @default.
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W2088897692 cites W2030911616 @default.
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W2088897692 cites W2083530550 @default.
W2088897692 cites W2084708798 @default.
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W2088897692 cites W2172172128 @default.
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W2088897692 doi "https://doi.org/10.1021/ac026107h" @default.
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