2011
DOI: 10.1021/es201981g
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Electrochemical Analysis of Proton and Electron Transfer Equilibria of the Reducible Moieties in Humic Acids

Abstract: Humic substances play a key role in biogeochemical and pollutant redox reactions. The objective of this work was to characterize the proton and electron transfer equilibria of the reducible moieties in different humic acids (HA). Cyclic voltammetry experiments demonstrated that diquat and ethylviologen mediated electron transfer between carbon working electrodes and HA. These compounds were used also to facilitate attainment of redox equilibria between redox electrodes and HA in potentiometric E(h) measurement… Show more

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Cited by 227 publications
(260 citation statements)
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“…‡ The midpoint reduction potentials of humic acids and melanin are not well defined. Both compounds can act as single electron acceptors due to their quinone moieties as shown experimentally for humic acids (56) and for melanin (57). The melanin used was a gift from Kenneth Nealson (University of Southern California) that is kindly acknowledged.…”
Section: Nanosims Procedures and Parameters For This Studymentioning
confidence: 99%
“…‡ The midpoint reduction potentials of humic acids and melanin are not well defined. Both compounds can act as single electron acceptors due to their quinone moieties as shown experimentally for humic acids (56) and for melanin (57). The melanin used was a gift from Kenneth Nealson (University of Southern California) that is kindly acknowledged.…”
Section: Nanosims Procedures and Parameters For This Studymentioning
confidence: 99%
“…The redox potential of riboflavin is, at 2210 mV (Stare, 1935), very similar to the potential of AQDS. For naturally occurring humic acids, no defined redox potentials, but rather ranges of standard reduction potentials from +150 to 300 mV (at pH 7), have been determined (Aeschbacher et al, 2011), since they form a supermolecular association of very diverse organic molecules. Still, since redox potentials are most likely not the reason for the observed kinetic data, we hypothesize that substrate specificity causes the observed differences.…”
Section: Discussionmentioning
confidence: 99%
“…Additionally, electrons and protons were consumed in a ratio close to 1:1 during electrochemical reduction of different HS samples, which also points toward the reduction of quinoid functional groups as the active electron acceptors (Aeschbacher et al 2010(Aeschbacher et al , 2011Maurer et al 2010).…”
Section: Humic Substances: Composition and Propertiesmentioning
confidence: 90%
“…Indications that quinones are the most important redox-active functional groups in HS at environmentally relevant conditions also come from the observation that electron transfer to HS is reversible (Aeschbacher et al 2011;Bauer and Kappler 2009;Ratasuk and Nanny 2007) and from the comparison of electrochemical and spectroscopic properties of HS with those of selected model quinones (Fimmen et al 2007;Nurmi and Tratnyek 2002;Ratasuk and Nanny 2007). Additionally, electrons and protons were consumed in a ratio close to 1:1 during electrochemical reduction of different HS samples, which also points toward the reduction of quinoid functional groups as the active electron acceptors (Aeschbacher et al 2010(Aeschbacher et al , 2011Maurer et al 2010).…”
Section: Humic Substances: Composition and Propertiesmentioning
confidence: 99%