SU1224700A1 - Composition of ion-selective electrode for determining activity of uranyl-ions - Google Patents

Abstract

The invention relates to ionometry and can be used for potentiometric determination of the activity of uranyl ions in aqueous solutions using ion-selective electrodes (ISE). The composition of the ISE membrane for determining the activity of uranyl ions includes a polyvinyl chloride matrix, a dioctyl phthalate plasticizer solvent and an electrode active substance. Tri-octyl phosphate was used as the electrode-active component, which makes it possible to increase the selectivity of the determination with respect to the ions Cu, Ca, Mg, Na. 1 il. to to 4 vl

Description

The invention relates to a technique of physicochemical analysis, to the field of ionometry, namely to selective electrodes, and can be used to potentiometrically determine the activity of uranyl ions in aqueous solutions to control the composition of media in the chemical industry, hydrometallurgy. the practice of scientific research in the field of chemistry, biology, medicine, etc.

The purpose of the invention is to increase the selectivity of the membrane to uranyl ions in the presence of hydrogen ions.

The ability of trioctylphosphate to extract heavy metagshes with the formation of Me.2 solvates with them is known. A membrane with trioctyl phosphate, placed in an aqueous solution of uranium salt VI, is pressed into such solvates. Decomposing in the membrane phase, they release ions and 0, which ensure the appearance of potential differences at the membrane boundaries, depending on the concentration of uranyl in the solution.

The investigation of the electrode properties of the membrane was carried out in solutions of uranyl chloride in a galvanic cell of the following type.

The emf of this element depends on the composition of the test solution, then

HER

9 Is;

where a pp average activity

 io, c1 ,.

When the concentration of the internal solution is fixed (10), the dependence Е f (- Iga) should be linear with an angular coefficient of 87 mV at 20 C.

The drawing shows: a - the dependence of E - Ig a; b - the dependence of E-pH in a solution of uranyl chloride ;; a.

247002

Example. To obtain a membrane in an inert solvent of tetrahydrofuran, polyvinyl chloride of 0.61 g, 5 dioctures of 1.39 g and trioctylphosphate of 0.46 g are added with constant stirring. After the components are dissolved, the mixture is transparent, uniform, not containing air bubbles. Vishiv in a Petri dish and leave 10 open for 1 day for complete evaporation of tetrahydrofuran. An elastic transparent film of the membrane composition is obtained, wt.%:

Polyvinyl chloride 24.8 15 Dioctylphapta 56.5 Trioctylphosphate 18.7, from which disks are cut out and glued to the ends of polyvinyl chloride tubes with glue — a solution of polyvinyl-20 × poride in tetrahydrofuran.

UOjCI ,,

The electrodes thus fabricated are filled with a solution of 10 M and are examined in the element.

Thus, the proposed membrane has a theoretical function of the uranyl ion in the concentration range studied, which is maintained at high concentrations of hydrogen ion (pH 1).

The electrode characteristics of the membrane are maintained at the following ratios of the main and extraneous ions: Cu (ll) - 1: 100; Sa - 1: 100; Mg -1: 100; Na, 1000; K - 1: 1000.

Claims (1)

Invention Formula U The composition of the membrane of the ion-selective electrode for determining the activity of uranyl ions, containing a polyvinyl chloride matrix, a dioctyl phthalate plasticizer solvent, and an electroactive material, is different from the following , wt.%: Polyvinyl chloride Dioctc: g1 phthalate Trioctyl phosphate 20.3-28.5 53.6-59.8 17.9-19, -9 Editor I. Casarda Order 1944/43 Circulation 778 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 4 -Iga MOiClf 4 pM Compiled by A. Kopytin Tehred I. Veres Proof-reader E. Sirohman