Natural organics and environmental stability of mercury : Electrochemical considerations

The behavior of elemental mercury in aqueous systems containing organics has been examined thermodynamically in terms of the complexing effect of a natural organic ligand species on aqueous electrochemical equilibria in the Hg-H sub(2)O system, and supplemented by tests on liquid mercury exposed to...

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Veröffentlicht in:	Journal of the Electrochemical Society 1996-06, Vol.143 (6), p.L123-L126
Hauptverfasser:	TROMANS, D, MEECH, J. A, VEIGA, M. M
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences CATALYTIC EFFECTS Chemistry Contamination Ecosystems Electrochemistry ENVIRONMENTAL SCIENCES Exact sciences and technology General and physical chemistry Global environmental pollution GROUND WATER Kinetics and mechanism of reactions MERCURY MERCURY OXIDES ORGANIC COMPOUNDS Oxidation OXIDIZERS Pollution Q1 SOLUBILITY SURFACE WATERS Water WATER POLLUTION
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container_title	Journal of the Electrochemical Society
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description	The behavior of elemental mercury in aqueous systems containing organics has been examined thermodynamically in terms of the complexing effect of a natural organic ligand species on aqueous electrochemical equilibria in the Hg-H sub(2)O system, and supplemented by tests on liquid mercury exposed to solutions containing natural organics. The implications of the study are serious in relation to the likely effect of organic-containing aquatic systems on mercury solubility in the mercury contaminated regions of the world.
doi_str_mv	10.1149/1.1836897
format	Article
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source	IOP Publishing Journals
subjects	Applied sciences CATALYTIC EFFECTS Chemistry Contamination Ecosystems Electrochemistry ENVIRONMENTAL SCIENCES Exact sciences and technology General and physical chemistry Global environmental pollution GROUND WATER Kinetics and mechanism of reactions MERCURY MERCURY OXIDES ORGANIC COMPOUNDS Oxidation OXIDIZERS Pollution Q1 SOLUBILITY SURFACE WATERS Water WATER POLLUTION
title	Natural organics and environmental stability of mercury : Electrochemical considerations
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