RU2683423C1 - Membrane of ionoselective electrode to determine uranyl ion - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to the field of analytical chemistry and can be used for non-destructive testing and automatic control of the content of uranyl ions in aqueous solutions. Proposed is a membrane of ion-selective electrode for the determination of uranyl ion containing polyvinyl chloride as a polymer matrix, tris(2-ethylhexyl)phosphate as a plasticizer and ionophore, while as the ionophore used salt of cesium Cs B₁₀H₉S(C₁₈H₃₇)₂, at a given ratio of membrane components.

EFFECT: invention provides the possibility of determining uranyl ions in the presence of alkali and alkaline earth elements as well as improving the detection limit of the UO₂ ²⁺cation.

1 cl, 1 dwg, 2 tbl

Description

The invention relates to the field of analytical chemistry, namely to potentiometric methods for the quantitative determination of substances (ionometry) and can be used for non-destructive testing and automatic control of the content of uranyl ions in aqueous solutions in the chemical industry, hydrometallurgy, in the practice of scientific research in chemistry, biology medicine etc.

The purpose of the invention is to increase the selectivity of the determination of uranyl ions in the presence of cations of alkaline and alkaline earth elements.

Known methods for the determination of various substances based on potentiometric measurements, in which the potential of the indicator (ion-selective) electrode is a function of the concentration of mainly one ion, while other ions present can have one or another effect on the electrode potential and thereby changing the measurement result . A measure of the influence of foreign ions on the measurement result is the coefficient of selectivity of the electrode, the value of which depends entirely on the membrane material, on the ability of this material to selectively transfer only one type of ion. Therefore, the development of new ion-selective electrodes requires the synthesis of new materials with the properties of selective ionophores - ion carriers. This technical solution is aimed at creating a new membrane composition with high selectivity with respect to uranyl ion and a low detection limit.

Various membrane compositions of ion-selective electrodes are known for the determination of uranyl ions in which it was proposed to use neutral molecules as ion carriers. For example, nitrogen-containing podands of bli were proposed in [Mojtaba Shamsipur, Ahmad Soleymanpour, Morteza Akhond, Hashem Sharghi, Ahmad Reza Massah “Uranyl-selective PVC membrane electrodes based on some recently synthesized benzo-substituted macrocyclic diamides”, Talanta 58 (2002) 237-246].

In the cited work, the synthesis of new macrocyclic diamides containing aromatic rings of various structures with varying cavity configurations is proposed. This made it possible to change the selectivity of binding of uranyl ions. Traditional plasticizers were used as plasticizers in the studied polyvinyl chloride membranes: dibutyl phthalate, 2-nitrophenyl octyl ether, and others. As a result, ion-selective electrodes with a linear potential range of 3.0 × 10 ^-6 M - 4.5 × 10 ^-3 M were obtained. [UO ₂ ²⁺ ]. In this case, the angular slope of the electrode characteristic S reached close to the theoretical value of 29.8 mV in only one case, but at the same time, the region of the linear dependence of the potential narrowed to 3.0⋅10 ^-6 M - 8.2⋅10 ^-3 M. For all other membrane compositions, the angular slope of the characteristic was significantly less than the theoretical (<20 mV), which casts doubt on the possibility of their practical application. It should be noted the lack of selectivity for cations of potassium, ammonium, copper, which are often present in the measured solutions in significant quantities relative to the uranyl ion.

, I R

and N S.Nassory Construction of Uranyl Selective Electrode Based on Complex of Uranyl Ion with New Ligand Carboxybenzotriazole in PVC Matrix Membrane. International Conference on Advanced Materials: Materials Science and Engineering 92 (2015) 012023 В этой работе были исследованы характеристики уранил - селективного электрода на основе карбоксибензо-тризола с различными пластификаторами. Электроды с дибутилфталатом в качестве пластификатора обладали угловым наклоном 28,0 мВ / декада, в широком диапазоне концентраций от 3.0×10^-5-6.0×10^-2 М и предел обнаружения 4,0×10^-6 М. Однако селективность таких электродов по отношению к однозарядным ионам была низкая, что делает невозможным применение таких электродов в технологических растворах.The composition of the membrane of the ion-selective electrode is also known, where it is proposed to use a complex of uranyl ion (UO ₂ ²⁺ ) with carboxybenzo-triazole (M A Abu-Dalol, NAF as an ionophore)

IR

and N S. Nassory Construction of Uranyl Selective Electrode Based on Complex of Uranyl Ion with New Ligand Carboxybenzotriazole in PVC Matrix Membrane. International Conference on Advanced Materials: Materials Science and Engineering 92 (2015) 012023 In this work, we studied the characteristics of a uranyl selective electrode based on carboxybenzo-trizole with various plasticizers. The electrodes with dibutyl phthalate as a plasticizer had an angular slope of 28.0 mV / decade, in a wide concentration range from 3.0 × 10 ^-5 -6.0 × 10 ^-2 M and a detection limit of 4.0 × 10 ^-6 M. However, the selectivity of such electrodes is the ratio to singly charged ions was low, which makes it impossible to use such electrodes in technological solutions.

The closest in technical essence and achieved result solution was proposed in the work of K.N. Michelson, N.S. Lebedeva and T.Ya. Bard "Membrane composition of the ion-selective electrode for determining the activity of uranyl ions" Copyright certificate of the USSR 1224700, MKI G01N 27/30, bull. fig. No. 14, dated April 15, 86., priority June 19, 84.

A polymer composition based on a supramolecular system containing polyvinyl chloride (PVC) as a polymer matrix, a solvent-plasticizer PVC dioctyl phthalate and an electroactive component (ionophore) trioctyl phosphate were used as an electrode membrane. The aim of the invention was to increase the selectivity of the determination of uranyl ions in the presence of cations of copper (+2), calcium, magnesium, sodium and potassium. The values of selectivity coefficients were achieved with respect to potassium and sodium ions no worse than K = 10 ^-3 and with respect to cations of copper (+2), calcium, magnesium no worse than K = 10 ^-2 . The electrode function of such an electrode (as follows from the description) in UO ₂ Cl ₂ solutions was linear from the logarithm of salt activity in the range p [UO ₂ Cl ₂ ] = 1-4. It should be noted the insufficient selectivity of the proposed technical solution for the determination of uranyl ions in solutions of complex salt composition, as well as the insufficient range of linear response and the detection limit of the UO ₂ ^{2+ ion} .

The aim of the invention is to increase the selectivity of determining the uranyl ion in the presence of alkaline and alkaline earth elements, as well as improving the detection limit of the cation UO ₂ ²⁺ .

To solve this problem, we proposed to use a polymer supramolecular composition as a uranyl selective membrane where the salt Cs B ₁₀ H ₉ S (C ₁₈ H ₃₇ ) ₂ in combination with polyvinyl chloride as a matrix and tris (2-ethylhexyl) was used as a uranyl ionophore phosphate as a plasticizer in the following ratio of membrane components, wt. %:

ionophore Cs B ₁₀ H ₉ S (C ₁₈ H ₃₇ ) ₂ : 1-3 plasticizer: 65-72 PVC: 27-32

Such a membrane composition can significantly improve the detection limit of uranyl ions, as well as increase the selectivity of the determination of uranyl ions in the presence of cations of alkaline and alkaline earth elements - the main interfering impurities in the analysis of technological solutions containing uranyl ion. This opens up the possibility of using the proposed ion-selective electrode for direct potentiometric determination of the content of uranyl ions in aqueous solutions and significantly simplifies the analysis of uranyl ion in comparison with the methods used (G.V. Kalyatskaya, A.N. Strashko “Chemistry and Analytical Chemistry” uranium and thorium "; Tomsk Polytechnic University. - Tomsk: Publishing House of Tomsk Polytechnic University, 2011, 80 pp.)

The membranes of the studied electrodes are made as follows. The calculated amounts of a 10% solution of PVC in cyclohexanone (CT) are mixed with liquid ion exchanger (ionophore solution - Cs B ₁₀ H ₉ S (C ₁₈ H ₃₇ ) ₂ in tris (2-ethylhexyl) phosphate). The mixture is transferred to a glass ring located on a flat glass plate, which is placed in a clean box, at room temperature and in air. After the evaporation of cyclohexanone, a polymer film 0.3-0.5 mm thick is formed, from which disks with a diameter of 5-7 mm are cut, which are later used as membranes. The composition of the membranes and their parameters are presented in table. 1 "The dependence of the electroanalytic parameters of the electrode on the content of the ionophore in the ion-selective membrane." A typical electrode characteristic for membranes of composition No. 2 is shown in FIG. 1, the detection limit of the UO ₂ ²⁺ anion is 6⋅10 ^-7 M (membrane No. 2)

To study the electroanalytic properties of the membrane, the standard ISE case (Fluka 45137) was used, and the silver – silver electrode OP – 0820Р (Radelkis, Hungary) was used as a reference electrode. The measurements were carried out using a pH-analyzer OR-300 (Radelkis, Hungary).

In the process of studying the electroanalytic properties of the developed membranes, a galvanic circuit was used:

where UO ₂ Ac ₂ is uranyl acetate.

The selectivity coefficients were determined according to IUPAC recommendations, according to the method of mixed solutions against the background of a constant concentration of interfering components of 10 ^-1 M. 2. "The measured selectivity coefficients of UO ₂ ²⁺ - selective electrode (membrane No. 2)."

For a membrane with the best parameters in terms of detection limit and potential stability. As studies have shown, a change in pH between 5-8 did not affect the value of the electrode potential.

The content in the membrane of the matrix components of PVC in the range of 27-32% (wt.) And 65-72% of the plasticizer tris (2-ethylhexyl) phosphate (wt.) Does not significantly affect the electroanalytical parameters of the studied membranes, are presented in table. 1 When you go beyond these limits, there is a deterioration in the characteristics of the electrodes such as angular inclination and reproducibility of the potential.

The developed membrane and ion-selective electrodes based on it can be used to determine uranyl ions in solutions of complex salt composition.

Claims (2)

Membrane of an ion-selective electrode for determining a uranyl ion containing polyvinyl chloride as a polymer matrix, tris (2-ethylhexyl) phosphate as a plasticizer and ionophore, characterized in that the cesium salt Cs B ₁₀ H ₉ S (C ₁₈ H _{37 is} used as an ionophore) ) ₂ , with the following ratios of membrane components, wt. %: PVC 27-32 tris (2-ethylhexyl) phosphate 65-72 Cs B ₁₀ H ₉ S (C ₁₈ H ₃₇ ) ₂ 1-3

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