Effects of Dissolved Carboxylates and Carbonates on the Adsorption Properties of Thiuram Disulfate Pesticides

Stathi, Panagiota; Christoforidis, Konstantinos C.; Tsipis, Athanasios C.; Hela, Dimitra; Deligiannakis, Yiannis

doi:10.1021/es051451s

Cited by 21 publications

(54 citation statements)

References 29 publications

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“…The surface charge of montmorillonite suspensions were evaluated by two methods: potentiometric acid -base titrations (Schulthess and Sparks, 1986;Stathi et al, 2006;Giannakopoulos et al, 2006) and mass titration (Giannakopoulos et al, 2006;Bourikas et al, 2003).…”

Section: Surface Charge Properties Of Montmorillonitementioning

confidence: 99%

Heavy-metal uptake by a high cation-exchange-capacity montmorillonite: the role of permanent charge sites

Stathi

Deligiannakis²

2013

Global NEST Journal

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A High Cation Exchange Capacity (HCM) montmorillonite clay has been prepared by acetate treatment of Zenith clay. The HCM has been evaluated for metal-uptake from aqueous solutions. The present data show that the cation exchange sites can play a significant role in the adsorption of metals in smectite clays. A theoretical analysis scheme has been developed which shows that permanent-charge sites can become dominant in metal-uptake by clays. In addition, it was shown that the permanent charge can influence the ionic-strength sensitivity of the Point of Zero Charge of the clay. KEYWORDS:Montmorillonite; CEC; Adsorption; Heavy metals; Surface Complexation Models; Permanent charge. ΙNTRODUCTIONUnder certain environmental conditions, heavy metals might accumulate up to toxic concentrations and cause ecological damage. Heavy metals are often introduced to the environment through modern human activities. Montmorillonites are a class of layered aluminosilicate minerals with unique combinations of swelling and ion exchange properties that make them valuable nanostructures in diverse fields. Their structures consist of an octahedral alumina layer fused between two tetrahedral silica layers. Smectite clays have a cation exhange capacity, which depends on the substitution of low-valent atoms such as Mg 2+ or Al 3+ in the octahedral sheet, and Al 3+ or Si 4+ in the tetrahedral sites. As a consequence, the layers are negatively charged (Sposito, 1989;Sposito, 2004). Soluble heavy metals can be removed from the environment, by adsorption. Clay minerals are low cost sorbents and are highly valued for their adsorptive properties. Therefore, a number of studies performed using clays for heavy metal adsorption showed effectiveness in removing heavy metals or organic molecules from aqueous solutions (Ikhsan et al., 2005;Barbier et al., 2000;Bradbury and Bayens, 1999;Bayens and Bradbury, 1997). Adsorption of ions on clay minerals is controlled by two different mechanisms: (i) pH-independent adsorption, usually attributed to cation exchange in the intrer-layer and resulting from the electrostatic interaction between the ions and the permanent charge. (ii) a pH dependent adsorption, thought to result from the surface complexation reaction similar to those on oxides. Cation exchange has been fount to be an important sorption mechanism for many clay minerals (Ikhsan et al., 2005;Kraepiel et al., 1999;Avena and De Pauli, 1998) with a number of studies suggesting that exchange sites are responsible for cation uptake at low pH. Adsorption models for clays based on surface complexation modeling (SCM) usually involving two distinct types of surface groups (1) X -groups bearing a permanent charge with account to the cation exchange part of adsorption (2) amphoteric sites of SOH groups. Recently we have shown that the cation exchange capacity (CEC) of a Zn-containing montmorillonite (code name Zenith) can be increased by selective removal of Zn atoms from the clay lattice (Stathi et al., 2009). According to this methodology treatment ...

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Section: Surface Charge Properties Of Montmorillonitementioning

confidence: 99%

Heavy-metal uptake by a high cation-exchange-capacity montmorillonite: the role of permanent charge sites

Stathi

Deligiannakis²

2013

Global NEST Journal

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“…During the HFSLM extraction of target weak organic acids, the dissolved carbon dioxide and carbonate that are widely present in environmental waters are co-extracted by partitioning in the form of CO 2 or H 2 CO 3 into the liquid membrane and then trapping into the acceptor as carbonate. 12 Given the high concentration of dissolved carbon dioxide and carbonate (at mM level) 13 in comparison to the target analytes (at nM level), the trapping of dissolved carbon dioxide and carbonate in the basic acceptor might signicantly reduce the acceptor pH and therefore the extraction efficiency of the target analytes. As the dissolved carbon dioxide and carbonate in reagent water used to prepare standard solutions are negligible, the reduced extraction efficiency of target analytes resulted from the relatively high contents of dissolved carbon dioxide and carbonate in real environmental samples, giving rise to low recovery of analytes.…”

Section: -6mentioning

confidence: 99%

Eliminating the matrix effects of dissolved carbon dioxide and carbonate in extraction of triclosan and chlorophenols in environmental waters by hollow fiber supported liquid membrane

et al. 2013

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Hollow fiber supported liquid membrane (HFSLM) extraction often suffers from matrix effects in extracting weak organic acids in environmental waters, but the reasons for which are unclear. This work systematically studied the influence of dissolved carbon dioxide and carbonate on the HFSLM extraction of analytes in environmental waters, by using triclosan and its two typical degradation products, 2,4-dichlorophenol and 2,4,6-trichlorophenol, as model compounds. HFSLM was conducted by immersing a HFSLM extraction device into a 200 mL water sample modified with 0.01 M HCl and 10% (m/v) NaCl, and shaking at 250 rpm for 90 min. The extraction device was prepared by immobilizing dihexyl ether on the polypropylene hollow fiber membrane wall (60 cm length, 50 mm wall thickness, 280 mm inner diameter), filling the fiber lumen with 0.4 M NaOH as acceptor, and closing the two ends of the fiber with aluminum foil. It was demonstrated that the dissolved carbon dioxide and carbonate present in environmental samples reduces the acceptor pH and thus the recovery of target analytes, and purging the acidified sample with $50 mL min À1 N 2 for 15 min is a very efficient approach to eliminate this matrix effect. With this purging pretreatment, the recoveries of the analytes in environmental samples increased substantially from below 40% to between 63% and 121%. For the three analytes, the proposed HFSLM method provided enrichment factors in the range of 1090-1322, and detection limits in the range of 0.1-0.2 mg L À1 by coupling with an ultra-performance liquid chromatography-mass spectrometry system.

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“…In real soils, more than one mechanism may operate simultaneously. So far, several works have attempted to study and/or correlate the role of sorption in connection with the persistence of selected pesticides on soil (Sheng et al, 2001, Stathi et al, 2006. Sheng et al (2001) have reported an unusual nonlinear adsorption isotherm for Ethyl-Parathion on soil organic matter.…”

Section: Introductionmentioning

confidence: 99%

“…This isotherm non-linearity has been attributed, although not proven, to the presence of high surface area carbonaceous material and/or to specific interactions between pesticide and adsorbent (Sheng et al, 2001). Recently we have demonstrated that adsorption of two common dithiocarbamate pesticides, i.e., Thiram and Disulfiram, on soil components such as a-Al 2 O 3 or montmorillonite (Stathi et al, 2006) and humic acids (Stathi et al, 2007) is determined by carbonates at natural concentrations. Natural concentrations of HCO 3 − have been shown to either enhance drastically adsorption of the neutral dithiocarbamates on a-Al 2 O 3 and montmorillonite (Stathi et al, 2006) or to cause severe inhibition of their sorption on humic acid (Stathi et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

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A general mechanism of interaction of carbonates with non-polar S-containing pesticides

2011

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Effects of Dissolved Carboxylates and Carbonates on the Adsorption Properties of Thiuram Disulfate Pesticides

Cited by 21 publications

References 29 publications

Heavy-metal uptake by a high cation-exchange-capacity montmorillonite: the role of permanent charge sites

Heavy-metal uptake by a high cation-exchange-capacity montmorillonite: the role of permanent charge sites

Eliminating the matrix effects of dissolved carbon dioxide and carbonate in extraction of triclosan and chlorophenols in environmental waters by hollow fiber supported liquid membrane

A general mechanism of interaction of carbonates with non-polar S-containing pesticides

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