2012
DOI: 10.1021/es300039h
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Antioxidant Properties of Humic Substances

Abstract: Humic substances (HS) are heterogeneous, redox-active organic macromolecules. While electron transfer to and from HS under reducing conditions is well investigated, comparatively little is known on the electron donating (i.e., antioxidant) properties of HS under oxic conditions. In this work, the electron donating capacities (EDCs) of terrestrial and aquatic HS were quantified by mediated electrochemical oxidation over a wide range of pH values and applied redox potentials (E(h)) using 2,2'-azino-bis(3-ethylbe… Show more

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Cited by 521 publications
(661 citation statements)
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References 66 publications
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“…Using electrochemical methods, Aeschbacher et al (2010) determined that the EAC of HA and FA from both aquatic and terrestrial origins was 493-1961 μmol e /(g C). The slightly smaller EAC (199-1210 μmol e /(g C)) of DOM determined in this study can be attributed to the differences in the specific experimental conditions (e.g., pH, E h ) and the DOM source material (Aeschbacher et al 2012). Compared with the results of Aeschbacher et al (2010), considerably lower EDC was obtained in this study.…”
Section: Etc Of Domcontrasting
confidence: 76%
“…Using electrochemical methods, Aeschbacher et al (2010) determined that the EAC of HA and FA from both aquatic and terrestrial origins was 493-1961 μmol e /(g C). The slightly smaller EAC (199-1210 μmol e /(g C)) of DOM determined in this study can be attributed to the differences in the specific experimental conditions (e.g., pH, E h ) and the DOM source material (Aeschbacher et al 2012). Compared with the results of Aeschbacher et al (2010), considerably lower EDC was obtained in this study.…”
Section: Etc Of Domcontrasting
confidence: 76%
“…According to those studies, the biochar HSP-like substances are much more abundant in biochars produced at relatively lower temperatures, from cellulosic and manure feedstocks, or in biochars that were pretreated by acidic or alkaline solutions, as compared to untreated biochars produced at higher temperatures or from ligneous feedstocks. Small organic molecules and substances similar to HSP that make up the water soluble fraction of biochar were found to be redox active , much like similar organic materials in natural dissolved organic matter (Fimmen et al 2007;Aeschbacher et al 2012).…”
Section: Introductionmentioning
confidence: 97%
“…However, the redox potential (E h ) of humic acid is also highly dependent on pH. A linear decreasing E h with increasing pH was observed for various HAs and other DOM from different sources, 36,52,53 which indicate higher pH is favorable for the reduction by HA. Taken together, the influence of pH on the Au(III) species and E h of HA makes the pH-dependent reduction of Au(III): The reduction rate of Au(III) first increased and then decreased with the increasing of pH.…”
Section: +mentioning
confidence: 99%