Selectivity studies on liquid membrane, ion-selective electrodes

Srinivasan, K.; Rechnitz, G. A.

doi:10.1021/ac60279a014

Cited by 344 publications

(89 citation statements)

References 21 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…For this purpose, the mixed solution method 15 is preferred, as it usually corresponds more closely to the situation in samples. In this method, solutions are prepared with a constant activity of the main ion and varying activity of interfering ion.…”

Section: Interference Studiesmentioning

confidence: 99%

“…For this purpose, about 1.0 g of anodic slime samples are dissolved either in HCl + HNO3 (1 + 3) or in HNO3. 15 Acids are then evaporated nearly to dryness and then the sample is diluted into 50.0 ml. An aliquot of 0.05 ml is taken, 5.0 ml 0.1 M NH3-NH4Cl buffer (pH=8) and 1 ml of 1 M NaNO3 is added and the mixture is diluted into 10.0 ml.…”

Section: Determination Of Selenium In Anodic Slimementioning

confidence: 99%

See 1 more Smart Citation

Selenite-Selective Membrane Electrodes Based on Ion Exchangers and Application to Anodic Slime

Ekmekci

Somer

2000

ANAL. SCI.

View full text Add to dashboard Cite

Section: Interference Studiesmentioning

confidence: 99%

Section: Determination Of Selenium In Anodic Slimementioning

confidence: 99%

Selenite-Selective Membrane Electrodes Based on Ion Exchangers and Application to Anodic Slime

Ekmekci

Somer

2000

ANAL. SCI.

View full text Add to dashboard Cite

“…The selectivity coefficients (KPb,M) of the proposed carbon paste electrodes towards different cationic species (M n+ ) were determined by the Mixed Solution Method (MSM) 31 and…”

Section: Emf Measurements and Selectivity Coefficients Determinationmentioning

confidence: 99%

Potentiometrie Carbon Paste Sensors for Lead(II) Based on Dithiodibenzoic and Mercaptobenzoic Aeids

2006

View full text Add to dashboard Cite

Experimental ReagentsAll reagents used were of analytical reagent grade. Dithiodibenzoic (DTB) acid and mercaptobenzoic (MB) acid were studied to characterize their abilities as modifier agents for lead(II) sensors. For both sensors, the best results were obtained with modified carbon paste electrodes with 24.1% of ligand. The pH influence on the potentiometric response was studied. The selectivity coefficients for both modified electrodes were tabulated. A potentiometric sensor based on DTB acid exhibited a more sensitive and selective response to lead ions than an MB electrode. The limits of detection for the DTB and MB electrodes were very similar, 5.01 × 10 -8 M and 3.98 × 10 -8 M, respectively, for lead(II) activity. The DTB sensor was applied to lead(II) ion determination in real samples and as an indicator electrode in potentiometric titrations. Natural and commercial humic acids were titrated using the DTB electrode to estimate the stability constant between these organic compounds and the lead(II) ions with successful results.

show abstract

“…The selectivity of the proposed sulfate ion selective electrode over other anions (A -) was important; their potential responses were investigated in the presence of a wide variety of interfering foreign anions using the mixed solution method (MSM). 31,32 Potentiometric selectivity coefficients (K pot sul,A -) describing the preference of the membrane for an interfering ion A -relative to SO4 2-were determined by the fixed interference method (FIM). The selectivity coefficients for various anions were evaluated by the mixed solution method with a fixed concentration of interferent (0.10 M), and varying amounts of SO4 2-concentrations.…”

Section: Potentiometry Selectivitymentioning

confidence: 99%

Sulfate-selective Electrode Based on a Complex of Copper

et al. 2006

View full text Add to dashboard Cite

Sulfate is a major anion with relevance to industrial chemistry, environmental chemistry including pollution studies, biochemistry and mineralogy, as well as several other areas. The fact that sulfur in several other forms is ultimately determined after conversion to sulfate further enhances the importance of sulfate determination. Acid rain is a very serious problem closely connected with the fast development of industries and economics in the world. In order to clarify and evaluate the effect of acid rain on the acidification of the natural environment, the development of chemical sensors for measuring the primary components of acid rain is important.Among chemical sensors ion-selective electrodes (ISEs) are mainly used for routine applications because they have a number of advantages over other methods of ion determination, such as analysis speed, portability, no sample destruction, and a wide measuring range. The essential property of ISEs is their selectivity, except for cases in which they are employed as detectors in connection with a separation method. In such a case, the best performance does not require selectivity, but only a short response time.Although the majority of the approximately 60 ions for which ionophore based polymeric membrane ion-selective electrodes have been described up to now are cations, 1,2 a series of a new anion-selective electrodes were introduced recently as a result of the growing interest in the host-guest chemistry of anions. [3][4][5] Classical liquid membrane electrodes for anions are based on quaternary ammonium salts and exhibit the Hofmeister selectivity sequence based on the analyte lipophilicity. 6,7 Recently, a series of new anion-selective electrodes has been described, which display a selectivity deviating from the Hofmeister sequence as a result of unique interactions between the carriers and the anions. It has been well documented that the selective complexation of anions by synthetic ionophores can be used to design anion selective electrodes. For sulfate, so far, the most promising ISE is based on a bis(thiourea) derivative that forms four hydrogen bonds in a 1:1 complex with sulfate. 8 Recently, a bis(imidazole) derivative was reported to exhibit a similar selectivity for sulfate with respect to major interferences along with a strong pH dependence. 9 The synthetic hydrotalcite have been used as ionophore for sulfate. 10 For a truly anion-selective electrode, a strong interaction between the ionophore and the anion is required in order to complex the anion in a selective fashion. The potentiometric response of the membranes doped with these complexes is believed to be based on the coordination of analyte anion axial ligand to the metal center of the carrier molecule. 11,12 Recently, we have used ionophores in the construction of ISEs for NO3 -13,14 and SCN -. 15 In the present paper, we report the use of N,N′-bis(2-amino-1-oxo-phenelenyl)phenylenediamine copper(II) as an excellent ionophore for the preparation of a high selective ISE for the potentiometric det...

show abstract

Selectivity studies on liquid membrane, ion-selective electrodes

Cited by 344 publications

References 21 publications

Selenite-Selective Membrane Electrodes Based on Ion Exchangers and Application to Anodic Slime

Selenite-Selective Membrane Electrodes Based on Ion Exchangers and Application to Anodic Slime

Potentiometrie Carbon Paste Sensors for Lead(II) Based on Dithiodibenzoic and Mercaptobenzoic Aeids

Sulfate-selective Electrode Based on a Complex of Copper

Contact Info

Product

Resources

About