Your search keyword '"Quentel, F."' showing total 13 results

1. Confirming consistency: applying the electrochemical ROM quantification method to humic acids isolated from a semiarid freshwater wetland

Author

Quentel, F., Filella, M., Gonzalo Almendros, Rodríguez-Murillo, J. C., Chimie, Electrochimie Moléculaires et Chimie Analytique (CEMCA), Institut Brestois Santé Agro Matière (IBSAM), Université de Brest (UBO)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC), Schemi an Ëmwelt Atelier (SCHEMA), Institute F.-A. Forel, University of Geneva [Switzerland], and Museo Nacional de Ciencias Naturales

Subjects

Natural organic matter, Quantification, Quanti- fication, Tablas de Daimiel, ddc:550, [CHIM]Chemical Sciences, Humic substances, Refractory organic mater

Abstract

Many methods exist for characterising humic substances (also known as refractory organic matter, ROM), yet quantification methods in waters are thin on the ground. Since, in common with existing techniques for other categories of natural organic matter, quantification methods do not provide absolute values but values that are always expressed in standard equivalents, the choice of the calibration standard is particularly important, and yet this is often neglected. We recommended analysis of IHSS standard and reference substances close to the origin of the water for calibration purposes when applying our quantification method based on measuring the peaks obtained by adsorptive stripping voltammetry of the complex formed by ROM in the presence of trace amounts of Mo(VI). This calibration strategy relies on the assumption that substances with a similar origin will always give close responses. In order to test it, we have applied our method to a series of 18 wellcharacterised humic acids isolated from a semiarid freshwater wetland (Tablas de Daimiel, Spain). The analytical response obtained is in complete agreement with that obtained from IHSS standard and reference substances of similar origin (i.e., soil and peat), thus confirming the consistency of the approach.

Published

2013

2. Antimony in aquatic systems

Author

Filella, M., Belzile, N., Chen, Y-W, Elleouet, C., May, P.M., Mavrocordatos, D., Nirel, P., Porquet, A., Quentel, F., Silver, S., Filella, M., Belzile, N., Chen, Y-W, Elleouet, C., May, P.M., Mavrocordatos, D., Nirel, P., Porquet, A., Quentel, F., and Silver, S.

Abstract

Antimony is a naturally occurring element. It belongs to group 15 of the periodic table of the elements. Antimony can exist in a variety of oxidation states (–III, 0, III, V) but it is mainly found in two oxidation states (III and V) in environmental, biological, and geochemical samples. Although antimony was already known to the ancients, it is still often overlooked, both as an element of environmental concern and as a subject for study, probably because of its lower abundance and the relative insolubility of most of its compounds. This is reflected in the poor standard of existing data on the behavior of antimony in natural waters. However, interest in the study of this element seems to be growing and an increasing number of papers on the subject are being published. A useful series of comprehensive reviews on antimony in the environment has recently been published (1, 2).

Published

2005

3. Détermination en milieu naturel du dioxide de chlore, des ions chlorite et chlorate basée sur l'utilisation du carmin indigo: étude des interférences

Author

Elleouet, C., Quentel, F., Madec, C. L., Elleouet, C., Quentel, F., and Madec, C. L.

Abstract

Différentes méthodes fondées sur l'exploitation d'un même réactif à savoir le carmin indigo ont été mises en œuvre pour réaliser le suivi du dioxyde de chlore et des sous-produits de dégradation que sont les ions chlorite et chlorate.L'étude de la stabilité du carmin indigo a permis de montrer que la détermination du dioxyde de chlore doit être effectuée dans les premières heures qui suivent l'ajout de carmin indigo, une légère diminution de l'absorbance étant observée au delà de vingt heures. L'absorbance du carmin indigo en présence d'ions chlorite et chlorate reste en revanche stable plusieurs jours.La recherche d'éventuelles interférences (substances humiques, ozone, hypochlorite) a également été effectuée. Les ions chlorite et chlorate réagissent avec les substances humiques en milieu acide selon une cinétique réactionnelle beaucoup plus lente que celle des ions chlorite et chlorate sur le carmin indigo. De ce fait, les pourcentages d'erreur sur les concentrations restent faibles. L'hypochlorite ou plus précisément l'acide hypochloreux réagit avec le carmin indigo ce qui conduit à des erreurs dans la détermination du dioxyde de chlore, des ions chlorite et chlorate. Dans le cas du dosage du dioxyde de chlore, les sources d'erreur peuvent être éliminées en ajoutant de l'ammoniaque avant l'introduction du carmin indigo dans l'échantillon.Après avoir été validés dans des milieux synthétiques, les protocoles ont été appliqués à un milieu naturel : l'eau de distribution de la ville de Brest. Une analyse statistique a été effectuée dans le but de comparer les résultats avec ceux déduits d'autres méthodes basées sur des principes différents., Over the last decade, chlorine dioxide has been increasingly used for disinfecting drinking water in many countries. A guarantee for the protection of the consumer is the presence of a sufficient residual concentration of the bactericidal reagent in drinking water. Thus it is important to determine exactly and accurately the levels of chlorine dioxide at the tap. During water treatment and subsequent distribution, chlorine dioxide can undergo a variety of reduction and disproportionation reactions producing primarily chloride but also chlorite and chlorate, which have been shown to cause haemolytic anemia. Reliable analytical methods are needed to identify and determine levels of chlorine dioxide, chlorite and chlorate in drinking water. A procedure based on the use of indigo carmine for the determination of each species in natural waters is suggested in this paper.In phosphate buffer (pH 6.8), two moles of chlorine dioxide oxidize one mole of indigo carmine. The concentration of the bactericidal reagent can be determined by measuring the difference in absorbance of the dye at 610 nm before and after reaction with chlorine dioxide. This method is selective as chlorite and chlorate do not react with indigo carmine in phosphate buffer at pH 6.8. Although the spectrophotometric method can be used successfully used at levels of chlorine dioxide down to 30 µg/l, the determination of lower levels in tap water requires a more sensitive method such as an electrochemical stripping procedure. This analysis is based on the measurement of the decrease in the indigo carmine signal after addition of chlorine dioxide. The detection limit is around 1 µg/l.At pH=2, one mole of indigo carmine reduces one mole of chlorite. Thus the chlorite concentration can be determined by measuring the indigo carmine absorbance at pH=2. At pH=0, indigo carmine reacts with both chlorite and chlorate. A measurement at pH=0 allows chlorate concentrations to be determined since the decrease in absorban

Published

1999

4. Adsorption and Wetting Mechanisms at the Surface of Aqueous Hydrocarbon Solutions as a Possible Source of Atmospheric Pollution

Author

Sadiki, M., primary, Quentel, F., additional, Elléouet, C., additional, Olier, R., additional, and Privat, M., additional

Published

2006

5. Distribution of some trace-metals in well-mixed and stratified areas of the western brittany coastal waters

Author

Riso, Rd, Quentel, F, and Madec, C

Published

1990

6. Coadsorption at the air/water interface as source of pollutant transfer to the atmosphere: The case study of benzene/cyclohexane traces and lead

Author

SADIKI, M, primary, QUENTEL, F, additional, ELLEOUET, C, additional, STEPHAN, L, additional, OLIER, R, additional, and PRIVAT, M, additional

Published

2005

7. Le cuivre et le cadmium dans le front interne côtier de l'iroise (Atlantique Nord-Est, côte de Bretagne)

Author

Riso, Rd, Quentel, F, Madec, C, Lecorre, P, and Birrien, Jl

Published

1988

8. Particle size and mineralogical composition of inorganic colloids in waters draining the adit of an abandoned mine, Goesdorf, Luxembourg.

Author

Filella M., Chanudet V., Philippo S., Quentel F., Filella M., Chanudet V., Philippo S., and Quentel F.

Abstract

The use is described of single particle counting based on light scattering combined with transmission electronic microscopy coupled with energy dispersive spectroscopy and selected area electron diffraction to study the particle size distributions and the mineralogy of the inorganic colloids. The results showed that the dependence of the colloid number concentration on colloid diameters can be described by a power-law distribution in all cases. The same main mineral types were found in the different samples including phyllosilicates (illite and mica), chlorite, feldspars (albite and orthoclase), calcite and quartz, with a variable number of Fe oxide particles. The mineralogy closely resembles that of the parent rock. Spatial variations in the structure and composition of the rock in contact with the waters, such as fissured rock and shear joints, are reflected in the colloid composition. The properties of the colloids and the processes affecting them can be considered as representative of the colloids present in groundwaters., The use is described of single particle counting based on light scattering combined with transmission electronic microscopy coupled with energy dispersive spectroscopy and selected area electron diffraction to study the particle size distributions and the mineralogy of the inorganic colloids. The results showed that the dependence of the colloid number concentration on colloid diameters can be described by a power-law distribution in all cases. The same main mineral types were found in the different samples including phyllosilicates (illite and mica), chlorite, feldspars (albite and orthoclase), calcite and quartz, with a variable number of Fe oxide particles. The mineralogy closely resembles that of the parent rock. Spatial variations in the structure and composition of the rock in contact with the waters, such as fissured rock and shear joints, are reflected in the colloid composition. The properties of the colloids and the processes affecting them can be considered as representative of the colloids present in groundwaters.

9. A simple method for quantifying the humic content of commercial products.

Author

Quentel F and Filella M

Subjects

Commerce, Consumer Product Safety, Electrochemical Techniques methods, Humic Substances analysis

Abstract

A method based on an analytical technique, initially developed for quantifying aquatic refractory organic matter (often called humics), has been applied to commercial samples claiming to contain humic-type substances. At present, no method exists for quantifying the humic content on this type of sample. The analytical method is based on measuring the peak current obtained by adsorptive stripping voltammetry of the complex formed by refractory organic matter in the presence of trace amounts of Mo(VI). The quantification procedure requires the response obtained for the unknown sample to be compared with the response obtained with International Humic Substance Society (IHSS) reference humic substances. A very simple procedure that enables the humic content of any sample to be expressed as IHSS standard equivalents is described in detail. The method is highly selective, reproducible and suitable for routine analysis.

Published

2011

10. Quantification of refractory organic substances in freshwaters: further insight into the response of the voltammetric method.

Author

Quentel F and Filella M

Abstract

A recently published method for quantifying refractory organic matter (often referred to as humic substances) in freshwaters was applied to a wide range of International Humic Substance Society (IHSS) humic compounds in order to (i) gain a better understanding of the mechanism of the voltammetric response which is the basis of the analytical method and (ii) provide guidance on choosing the optimal standard to be used. At the same time, the sensitivity of the technique has been increased by switching from the pulse mode initially proposed to the square-wave mode. The results obtained show that (i) differences in adsorption onto the electrode rather than differences in complexation strength are responsible for the differences in the intensity of the signal obtained for the different humic compounds, (ii) carboxylate, N- and S-containing groups do not play a role in the voltammetric signal.

Published

2008

11. Coadsorption of carbofuran and lead at the air/water interface. Possible occurrence of non-volatile pollutant cotransfer to the atmosphere.

Author

Acharid A, Quentel F, Elléouet C, Olier R, and Privat M

Subjects

Adsorption, Aerosols, Air, Surface Tension, Water chemistry, Water Pollutants, Chemical, Wind, Carbofuran chemistry, Insecticides chemistry, Lead chemistry, Nitrates chemistry

Abstract

The weak solubility of carbofuran allows adsorption at the air/water interface. Carbofuran-rich layers can then induce the coadsorption of metallic salts such as lead nitrate; on the other hand, when carbofuran is missing, no adsorption of this salt takes place. This phenomenon was quantitatively studied through surface tension measurements under concentration conditions close to the environmental ones. Heavy metal salt adsorbed about ten times more than carbofuran. Evidence was then provided that the simultaneous presence of both pollutants in water favours their adsorption and passing from water to the atmosphere through mechanisms such as bubbling.

Published

2006

12. Comparative study of the thermodynamics and kinetics of the ion transfer across the liquid/liquid interface by means of three-phase electrodes.

Author

Quentel F, Mirceski V, L'Her M, Mladenov M, Scholz F, and Elleouet C

Abstract

A comparative study of the behavior of different sorts of three-phase electrodes applied for assessing the thermodynamics and kinetics of the ion transfer across the liquid/liquid (L/L) interface is presented. Two types of three-phase electrodes are compared, that is, a paraffin-impregnated graphite electrode at the surface of which a macroscopic droplet of an organic solvent is attached and an edge pyrolytic graphite electrode partly covered with a very thin film of the organic solvent. The organic solvent contains either decamethylferrocene or lutetium bis(tetra-tert-butylphthalocyaninato) as a redox probe. The role of the redox probe, the type of the electrode material, the mass transfer regime, and the effect of the uncompensated resistance are discussed. The overall electrochemical process at both three-phase electrodes proceeds as a coupled electron-ion transfer reaction. The ion transfer across the L/L interface, driven by the electrode reaction of the redox compound at the electrode/organic solvent interface, is independent of the type of redox probe. The ion transfer proceeds without involving any chemical coupling between the transferring ion and the redox probe. Both types of three-phase electrodes provide consistent results when applied for measuring the energy of the ion transfer. Under conditions of square-wave voltammetry, the coupled electron-ion transfer at the three-phase electrode is a quasireversible process, exhibiting the property known as "quasireversible maximum". The overall electron-ion transfer process at the three-phase electrode is controlled by the rate of the ion transfer. It is demonstrated for the first time that the three-phase electrode in combination with the quasireversible maximum is a new tool for assessing the kinetics of the ion transfer across the L/L interface.

Published

2005

13. Lutetium bis(tetra-tert-butylphthalocyaninato): a superior redox probe to study the transfer of anions and cations across the water/nitrobenzene interface by means of square-wave voltammetry at the three-phase electrode.

Author

Quentel F, Mirceski V, and L'Her M

Abstract

The redox properties of lutetium bis(tetra-tert-butylphthalocyaninato) (LBPC) have been studied in nitrobenzene that is deposited as a microfilm on the surface of highly oriented pyrolytic graphite electrodes. The behavior of the modified electrode, which is immersed in an aqueous electrolyte solution, is typical for the three-phase electrode (Scholz, F.; Komorsky-Lovrić, S.; Lovrić, M. Electrochem. Comm. 2000, 2, 112-118). LBPC can be both oxidized and reduced in one electron reversible processes. The oxidation and the reduction of LBPC at the graphite/nitrobenzene interface is accompanied by the transfer of anion or cation, respectively, from the aqueous phase into the organic layer. Thus, using LBPC as a redox probe for the three-phase electrode, the transfer of both anions and cations across the water/nitrobenzene interface can be studied in a single experiment. The hydrophobicity of LBPC is so high that it enables inspection of cations and anions with Delta (nb)(w) (G)(theta)(Cat+) < or = 43 kJ/mol and Delta (nb)(w) (G)(theta)(X-) < or = 50 kJ/mol, respectively. The direct transfer of Na(+) and Li(+) from water to nitrobenzene, mutually saturated, is achieved for the first time at a macroscopic water/nitrobenzene interface.

Published

2005