SU1497554A1 - Composition of membrane of chalcogenide glass electrode for analysis of lead ions - Google Patents

Abstract

This invention relates to a physicochemical analysis. The aim of the invention is to improve the electrochemical parameters of the electrode by providing a stable solid internal contact in the electrode. To implement the invention, iron is introduced into the membrane in an amount of 0.1-0.5 wt.%. The content of the remaining components in the membrane, wt.%: Lead sulfide - 4,9-29,8

silver sulfide 28.2-58.6

sulphide mouse - the rest. The electrode allows the determination of lead (I) ions in the range of 10 ^-1 - 10 ^-7 m and can be used for the analysis of aqueous solutions in various areas of the national economy. 1 tab.

Description

The invention relates to a physicochemical analysis, in particular to devices for determining active ;. lead ions in liquid media, and can be used in various industrial processes where control and regulation of the ionic composition of the solution is required.

The aim of the invention is to improve the electrochemical parameters of the electrode by providing a stable solid internal contact in the electrode.

PRI me R. To obtain 3 g of glass of composition 4.9 PbS 2P, 66.8 0.1 Fe take 0.146 g of lead sulfide, 0.848 g of sulfide

silver, 2,004 g of sulphide, with ka 0,002 g of iron and placed in a quartz ampoule. The actula is pumped out to the residual air pressure and the synthesis is carried out at 1000 K for 8 hours. Cooling is carried out by quenching the melt at an average rate of 100 K / s.

The ingots are cut into plane-parallel discs with a thickness of 1-5 mm. The membranes thus obtained are ground on both sides, then one of them is polished on GOI paste, the ground side is degreased and a layer of silver is applied by thermal evaporation in vacuum, to the surface of which a copper current is glued to the surface with a contactor;

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1497554

teflon isolation tap. After drying of the contacteol, the junction is filled with epoxy resin to create a strong contact. The resulting membrane with current lead is glued into the end of the PVC tube with a polished active side out. Then the final drying of the whole structure is carried out in an oven at 60-70 ° C for 10 hours.

The following electrochemical cell is used to measure electrode characteristics:

Ag, Ag Cl KCl 0.1 M KNO.

test solution

For lead selective electrodes, calibration solutions in the concentration range of 10 ± 10 mol / g are prepared from lead nitrate. Solutions with a concentration of GO - 10 mol / l are stored in plastic containers. Solutions with a concentration of 10 -10 mol / g are prepared immediately before the measurements in the teflon measuring cell by adding calibrated amounts of more concentrated solutions of lead nitrate to the known volume of distilled water or indifferent electrolyte. The EMF measurements of the electrochemical cell with the test electrodes are carried out with the aid of a digital voltmeter (input resistance 10, Ohm) or ionomer.

To measure the selectivity coefficient, the mixed solution method is used, in which the concentration of the interfering ion remains constant and the concentration of lead ions is changed from to 10 mol / L.

The table shows the analytical characteristics of the lead selective chalcogenide solid contact glass electrodes made according to the invention. The data in the table show that the obtained electrodes have a high detection limit for lead ions.

chalcogenide lag glass membrane I

(up to 510 mol / l), the theoretical angular coefficient of the electrode function in the region of 10–10 mol / l, high reproducibility of potentials with repeated measurements in the same solution.

The response time of the electrodes is 0.2-0.5 minutes.

Claims (1)

Thus, lead-selective chalcogenide glass electrodes with solid contact, obtained according to the invention, have a high reproducibility of potential and can be used to analyze solutions containing lead (II). Invention Formula The composition of the chalcogenide glass electrode membrane for the determination of lead ions, including lead sulphides, silver, and arsenic, which, in order to improve the electrochemical parameters of the electrodes by providing a stable solid internal contact in the electrode, was further added iron the ratio of components, wt.%: Lead sulfide Silver sulfide Iron Sulfide Bearing A, 9 - 29.8 28.2 - 58.6 O, - 0.5 Rest