RU2762370C1 - Composition of the membrane of the ion-selective electrode for the determination of lead ions - Google Patents

Abstract

FIELD: ionometry.SUBSTANCE: invention relates to ionometry, in particular to the development of compositions of membranes with ionic conductivity for ion-selective electrodes, selective to lead ions. The composition of the membrane of the ion-selective electrode for the determination of lead ions includes polyvinyl chloride as a polymer matrix, dibutyl phthalate as a plasticizer, a lipophilic additive and an electroactive component, while tetrakis(4-fluorophenyl)sodium borate dihydrate is used as a lipophilic additive, and 1-(methoxydiphenylphosphoryl)-2-diphenylphosphorylbenzene, with the following ratios of membrane components, wt.%: polyvinyl chloride 26-33, dibutyl phthalate 65-70, sodium tetrakis (4-fluorophenyl) borate dihydrate 0.5-1.5, 1-(methoxydiphenylphosphoryl)-2-diphenylphosphorylbenzene 1-3.EFFECT: obtaining a lead-selective membrane.1 cl, 3 tbl

Description

The invention relates to the field of ionometry, namely to the development of compositions of membranes with ionic conductivity for ion-selective electrodes, selective to lead ions, with the aim of their quantitative determination in aqueous solutions. An ion-selective electrode with the proposed composition of the membrane can be used for non-destructive control of the content of lead (Pb ²⁺ ) in aqueous solutions of complex ionic composition, incl. technological, as well as in solving a number of problems of environmental monitoring. Lead belongs to heavy metals, the toxic dose of which is 1-3 g. The metal can enter the body through the respiratory tract and digestive organs. According to the medical classification, lead is a cumulative poison. Once in the body, after a few minutes, lead enters the blood cells and binds to red blood cells. Therefore, it is very important to control lead at facilities, the environment, in particular, in consumer products.

Currently developed electrodes with lead-selective membranes have limited selectivity and a range of measurable Pb ²⁺ concentrations.

Known compositions of the membranes of ion-selective electrodes for the analysis of lead, for example, based on the use of various crown ethers [Shpigun LK, Novikov EA, Zolotov Yu.A. // Journal of Analytical Chemistry, 1986. T. 41. P. 482; Shpigun L.K., Novikov E.A., Zolotov Yu.A. // Journal of Analytical Chemistry, 1987. T. 42. S. 1540; Sheen S., Shih J. // Analyst, 1992. V. 117, P. 1691]. The disadvantage of electrodes based on such membranes is low selectivity to lead ions in the presence of alkali metal cations, as well as some transition metals, in particular copper, and a short service life.

The composition of the membrane of an ion-selective electrode for the determination of lead ions is known [RU 2315988], where diamides of dipicolinic (2,6-pyridinedicarboxylic) acid are used as an electrodeactive component (EAC), dioctyl sebacate (DOS) is used as a plasticizer, and chlorinated as a lipophilic additive. dicarbollide cobalt (CDC), while the composition of the membrane has the following ratio of components, wt. %: electroactive component - 1.0-3.0; plasticizer (DOS) - 60.0-72.0; lipophilic additive (CDA) - 0.1-6.0; polyvinyl chloride - the rest. The range of measured concentrations of lead ions is from 10 ^-6 to 10 ^-2 mol / l. The selectivity coefficient increases in the presence of copper ions from 10 ^-3 to 10 ^-5 . The disadvantages of such a membrane include low selectivity with respect to the cations of other d-elements.

The closest technical solution (prototype) is the composition of the polymer membrane lead selective electrode [RU 2054666], where the content of the electrode active component is 2-3 wt. %, plasticizer - 67-70 wt. %, polyvinyl chloride (PVC) - 27-31 wt. %, lipophilic additive - 1-2 wt. %. Phosphoryl-containing podand 1,8-bis [2- (diphenylphosphorylmethyl phenoxy] -3,6-dioxaoctane was used as EAC, and potassium tetrakis (4-chlorophenyl) borate (TCPBK) was used as a lipophilic additive. Dibutyl phthalate ( The electrode function of an electrode with such a membrane is linear in the range of measured concentrations 10 ^-1 -5⋅10 ^-5 M. The slope of the electrode characteristic is 29 ± 1 mV, the measured detection limit is 6.2⋅10 ^-6 M. The use of the indicated membrane composition allows you to increase the selectivity of the electrode in the presence of various ions, including copper ions up to 10 ^-3 . Nevertheless, an electrode with such a membrane has insufficiently high selectivity to lead (II) ions in the presence of copper ions and cations of other d - elements, which are quite often are found in real environments, which limits its use in environmental monitoring of wastewater and in process solutions.

The invention is aimed at improving the detection limit and increasing the determination of lead cations (Pb ²⁺ ) of lead-selective membranes in the presence of the most common metal cations contained in natural and waste waters.

The technical object of the invention is to obtain a lead-selective membrane.

The technical result is achieved by the fact that the composition of the membrane of the ion-selective electrode for the determination of lead ions is proposed, including polyvinyl chloride as a polymer matrix, dibutyl phthalate as a plasticizer, a lipophilic additive and an electroactive component, characterized in that tetrakis (4-fluorophenyl) dihydrate is used as a lipophilic additive sodium borate, as an electroactive component - 1- (methoxydiphenylphosphoryl) -2-diphenylphosphorylbenzene, with the following ratios of membrane components, wt. %:

polyvinyl chloride 26-33 dibutyl phthalate 65-70 sodium tetrakis (4-fluorophenyl) borate dihydrate 0.5-1.5 1- (methoxydiphenylphosphoryl) -2-diphenylphosphorylbenzene 1-3

With an increase or decrease in the ratio of PVC and plasticizer in the membrane, the mechanical and physical parameters of the polymer composition change, which leads to a deterioration in the electroanalytical parameters of the electrode (reproducibility and potential stability). ISE characteristics can be significantly changed by changing the amount of lipophilic additive in the membrane. K ^{pot values.} at first they decrease, pass through a minimum, and then increase with an increase in the concentration of the lipophilic additive in the membrane. The change in the selectivity value can also be determined by the nature of the lipophilic additive [Petrukhin OM, Kurachenkova SN, Sonina EA, et al. // Journal of analytical chemistry. 2002. T. 57. No. 3. S. 313]. For example, the selectivity of determination will change when going from sodium tetraphenylborate to tetrakis (4-fluorophenyl) borate dihydrate, which allows you to optimize the composition of the ISE membrane and change the analytical characteristics depending on specific analytical problems, taking into account the composition of the analyzed solution.

The ratio of the content of components in the membrane within the specified limits is due to the studies carried out in order to obtain membranes with the best characteristics.

Electrodeactive component 1- (methoxydiphenylpho- phoryl) -2-diphenylphosphorylbenzene (L) used in membranes has the following structural formula:

The polymer membranes studied using L were prepared according to the well-known method [Kamman K. Working with ion-selective electrodes // M. Mir. 1980. S. 283]. The polymer composition was prepared as follows: weighed portions of EAA and a lipophilic additive were dissolved in a plasticizer, and then introduced into a 5% solution of PVC in freshly distilled tetrahydrofuran (THF) with stirring, so that, after evaporation of THF, a polymer composition of a certain composition was obtained. The resulting solution was poured into a Petri dish and dried for a week in a box at room temperature to constant weight. Discs with a diameter of 5-7 mm were cut from the polymer film and placed in a standard body of an ISE ion-selective electrode (Philips IS-561).

The resulting electrode was filled with an internal solution of 0.1 M KCl + 0.01 M PbAc ₂ . Then it was kept in a 1⋅10 ^-2 M solution of lead acetate (PbAc ₂ ) for a day.

To study the electroanalytical properties of the membrane, a standard ISE housing (Fluka 45137) was used, and an OR-0820R silver chloride electrode (Radelkis, Hungary) was used as a reference electrode. The measurements were carried out using an OR-300 pH ion analyzer (Radelkis, Hungary).

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

The ISE electroanalytical parameters were determined according to the IUPAC recommendations [Richard P. Back and Erno Lindner, Recommendation for nomenclature of ion-selective electrodes (UPAC Recommendations 1994) // Pure and Apple. Chem. 1994. V. 66. No. 12. P. 2527-2536]. To obtain the electrode characteristics, we used PbAc ₂ calibration solutions with a concentration of 1⋅10 ^-7 - 1⋅10 ^-1 M, which were prepared by sequential dilution of the initial solution with 0.1 M PbAc ₂ immediately before measurement.

The invention is illustrated but not limited by the following examples.

An example of making a membrane.

5.5 mg of 1- (methoxydiphenylphosphoryl) -2-diphenylphosphorylbenzene and 2.75 mg of sodium tetrakis (4-fluorophenyl) borate dihydrate were dissolved in 270 mg of DBP. 81 mg of PVC was dissolved in 5 ml of freshly distilled tetrahydrofuran with stirring. The resulting solutions were mixed and poured into a Petri dish, and then dried at room temperature to constant weight. A membrane for ISE was obtained with the following composition: 1- (methoxydiphenylphosphoryl) -2-diphenylphosphorylbenzene - 2 wt. %; sodium tetrakis (4-fluorophenyl) borate dihydrate (TOOBNa) - 1 wt. %; DBP - 67 wt. %; PVC -30 wt. %. The rest of the membranes were prepared in a similar way. The main properties of the studied membranes are shown in Table. 1 and Tab. 2.

As you can see from Tab. 2 membranes with numbers 2, 3, 4 of compositions B, C, D have optimal electroanalytical parameters from the point of view of the detection limit, angular slope and potential reproducibility.

The selectivity coefficients were determined by the method of mixed solutions against the background of a constant concentration of interfering components 10 ^-2 M [Bakker E., Pretsch E., Buhlmann R. // Anal. Chem. 2000. V. 72. P. 1127]. The values of the calculated selectivity coefficients K ^pot. _Pb ²⁺ , m ^{n +} are given in Table 3.

As can be seen from the table, in comparison with the prototype, the electrode based on the proposed membrane has a higher selectivity with respect to cations of alkaline and alkaline earth elements, as well as some cations of transition elements, which are most often present in natural and waste waters.

As follows from the above experimental data, as a result of the studies carried out, the aim of the invention was achieved - to improve the detection limit and increase the selectivity of the determination of lead cations (Pb ²⁺ ) in the presence of the most common metal cations contained in natural and waste waters.

The electroanalytical properties of the membrane of the proposed composition make it possible to recommend it for solving many problems of environmental monitoring of industrial and waste water, as well as food.

Claims (2)

The composition of the membrane of an ion-selective electrode for the determination of lead ions, including polyvinyl chloride as a polymer matrix, dibutyl phthalate as a plasticizer, a lipophilic additive and an electrodeactive component, characterized in that sodium tetrakis (4-fluorophenyl) borate dihydrate is used as a lipophilic additive, and sodium borate tetrakis (4-fluorophenyl) borate dihydrate is used as an electroactive component - 1- (methoxydiphenylphosphoryl) -2-diphenylphosphorylbenzene, with the following ratios of membrane components, wt. %: polyvinyl chloride 26-33 dibutyl phthalate 65-70 sodium tetrakis (4-fluorophenyl) borate dihydrate 0.5-1.5 1- (methoxydiphenylphosphoryl) -2-diphenylphosphorylbenzene 1-3