SU1689838A1 - Electrode for measuring ph of solutions - Google Patents

Abstract

The invention relates to the field of physicochemical measurements, in particular using biological materials, and can be used in biochemical and histological laboratories, as well as in biotechnology in the study of biological fluids in dynamics. The aim of the invention is the miniaturization of the electrode and the increase in the life of its continuous operation. The electrode consists of a glass cuvette made with the possibility of input and output of the sample being analyzed and filled with an aqueous electrolyte solution, in which the electrophores are immersed, and an ion-exchange membrane separating the electrophobic electrodes, the ion-exchange membrane made of a bilayer isionion phosphatidic acid. 1 il.

Description

WITH/)

WITH

The invention relates to the field of physicomechanical measurements, in particular to the use of biological materials, and can be used in biochemical and histological laboratories, as well as in biotechnology in the study of biological fluids in dynamics.

The purpose of the invention is to miniaturize the electrode and increase the resource for its continuous operation.

The drawing shows the diagram of the electrode,

The circuit contains a bilayer lipid membrane 1, non-polarizing electrodes 2, an aqueous electrolyte solution 3, a glass cuvette 4. a power supply 5, a set of reference resistances 6, an amplifier 7, magnetic stirrers 8, a teflon cell 9 with a hole, a self-typing potentiometer 10.

The formation of the bilayer membrane is carried out as follows. An air bubble is pipetted into the solution near the hole of the Teflon cell containing a membrane-forming solution containing a mixture of the composition: n-decane, chloroform, methinol in a volume ratio of 7: 2: 1 with a concentration of thionphosphatidic acid of 200 mg / l.

The electrode works as follows.

Teflon 9 and glass 4 cuvettes are filled with an aqueous solution 3 of electrolyte and mixed with magnetic stirrers 8 - to ensure its homogeneity. A bilayer lipid membrane 1 of a thionophosphatide membrane is formed with a pipette on the opening of a teflon cell (aperture area 0.3–1 mm2)

ON 00

about

00

with

00

acid (the concentration of the membrane-forming solution is 10–20 mg / ml), the glass cuvette 4 is simultaneously thermostatting due to the circulation of water associated with the thermostat through it. The electrical conductivity of the bilayer membrane 1 is measured by measuring non-polarizing electrodes 2 dipped into electrolyte solution 3 on both sides of the membrane by comparing the voltage drop across the membrane and the reference resistances 6. The presence of a signal indicates the formation of a membrane. The measured signal is recorded by the amplifier 7 and the recording potentiometer 10. The conversion of the potentiometer readings to the membrane resistance is made according to the known formula

RM

E-ei

Nat

The material of the membrane is the biological compounds that make up the cells, which allows the pH of biological fluids to be controlled without disturbing their properties, and therefore

o-vWW1

the use of liquids in the following for other studies.

The presence in the test solution of an ion-exchange membrane of acidic phospholipids makes it possible to eliminate the need to use special amplifying equipment.

In addition, the device allows the control of the pH of small quantities of the solution due to the small size of the lipid membrane, and the method allows the control to be carried out automatically.

Claims (1)

The invention The electrode for determining the pH of solutions containing a glass cuvette, made with the possibility of input and output of the sample being analyzed, is filled with an aqueous electrolyte solution, in which non-polarizing electrodes are immersed, and an ion-exchange membrane separating non-polarizable electrodes, characterized in In order to miniaturize the electrode and increase the life of its continuous operation, the ion-exchange membrane is made of a bilayer of thion-phosphatidic acid. Н20