SU1733994A1 - Composition of ion-selective electrode membrane for determination of lead ions activity - Google Patents

Abstract

The invention relates to physico-chemical methods of analysis, in particular to the development of new membrane compositions of ion-selective electrodes. The purpose of the invention is to increase the selectivity of the membrane to lead ions in the presence of silver ions, copper, mercury. For this purpose, the composition of the membrane, wt.% Diphenylmethyl-M-phenyl-hydroxamic acid 3.00-2.00, diisooctyl sebacate 73.50-72.75, polyvinyl chloride else is suggested. 1 ill., 1 tab.

Description

The invention relates to a physicochemical analysis technique, to the field of ionometry, namely to ion-sensitive electrodes, and can be used for potentiometric measurements of the activity of lead ions in aqueous media (industrial emissions, wastewater). A lead electrode is also of interest to researchers working in the field of metallurgy, chemistry of complex compounds, and other fields of science. The ability to control lead content in aquatic environments is important, since it is with water that lead enters the body of humans and animals, causing pathological changes.

The purpose of the invention is to increase the selectivity of the membrane to lead ions in the presence of silver ions, copper, mercury.

This goal is achieved by haem, that in the composition of the ion-selective electrode membrane to determine the activity of lead ions containing a membrane-active substance, plasticizer-diisoctyl sebacate solvent and polyvinyl chloride as a binder, diphenyl-methyl-M-phenyl-hydroxamide is used as an electrode-active substance acid in the following ratio, wt.%:

Diphenylmethyl-M-phenyl-hydroxamic acid 3.00-2.00

Diisooctyl sebacate 73,50-72,75

Polyvinyl chloride

In the concentration range of 1 10 - 1 mol / kg Pb (MOh) and the membrane has a lead (II) function with an angular coefficient close to the theoretical (30 + 3 mV) for a two-ion ion. The determination of lead (II) ions does not interfere with 30000-fold excesses of ions No. +, 10000-fold excesses of ions, 500-1000 times excesses of ions Cd2 +, Ni2 +, Co2 +, Ag +, Cu2 +, 100-fold excesses of ions Zn, 10-fold excesses ions Nd +.

The membrane is a 1 mm thick film. Reduced content

4 CO SO O U

Ј

a hydroxamic acid derivative below 2% leads to a decrease in selectivity in the Presence of foreign ions, to a poor reproducibility of electrode potentials, an increase in electrical resistance. An increase in the content of more than 3% does not improve the electrode properties.

Diphenylmethyl-M-phenyl-hydroxamic acid was not used in any quality in ionometry. As a substance exhibiting selectivity to lead ions, it is interesting because, unlike other lead-selective DFMPH ion exchangers, it does not contain sulfur atoms, which accounts for the small influence of metal ions of the hydrogen sulfide group (Ad +, Hd2 +, Cu24) on the lead function of the electrode.

Example. The membrane membrane is prepared by dissolving a PVC sample in tetrahydride.

five

Rofuran with addition of solvent plasticizer - DIOS and DFMNFHK with respect to PVC: DIOS: DFMNFHK 24, 50: 73.50: 2.00 (wt.%). The thickness and area of the film can be varied by the amount of the membrane composition. The construction of a PVC-electrode tube is 0 10 mm, to the end of which a membrane membrane disc is glued. Glue is a 13% solution of PVC in cyclohexanone. A mixed solution of m (Pb (N03J2 1 mol / kg + t (№С1) mol / kg) is poured into the electrode, into which the silver-silver current electrode is immersed.

The study of electrode properties was carried out by measuring the electromotive force of a galvanic cell.

Ag / AgCI, KCI SHOZ investigated / film / Pb (LiO2) 2, NaCi, Ag CI / Ag

us. 1 mol / kg membrane solution 1 10 mol / kg 5 10 mol / kg

The pH of the solutions was monitored using a glass hydrogen electrode, which made it possible to calculate the CPb.

In practice, the determination of the activity (concentration) of lead ions is carried out using a calibration curve constructed from the values of emf in standard solutions or using the pX scale of an ionomer calibrated by this electrode.

The drawing shows the results of the study of the electrode in pure solutions of lead nitrate. It can be seen that in the concentration range of 1

10 2 mol / kg Pb (MOz) 2 2 +

The dependence of E on Ig Ar has an EE / dlg ar2 + 30 ± ZmV angular coefficient close to the theoretical one.

The table presents the selectivity coefficients (Кр2 / Мх +, determined by the BIP method for 1 10 mol / kg of solutions of nitrates of the corresponding ions.

Claims (1)

Invention Formula The composition of the membrane of the ion-selective electrode for determining the activity of lead ions, containing an electrodeactive substance, a solvent-plasticizer-diisooctyl sebacate and a binder - polyvinyl chloride, characterized in that, in order to increase the selectivity of the membrane to lead ions in the presence of silver ions, copper, mercury , diphenylmethyl-M-phenyl-hydroxamic acid was used as the electrode active substance in the following ratio, wt.%: Diphenylmethyl-M-phenyl-hydroxamic acid Diisooctyl sebacate Polyvinyl chloride 0 S - Iffctpb