SU943592A1 - Electrical chemichrome voltage indicator - Google Patents

Description

(5) ELECTROCHEMICAL AND CHEMICAL VOLTAGE INDICATOR

one

The invention relates to an indicator technique, and more specifically to electrochemical chromic indicator devices based on organic materials.

Electrochemichromic voltage indicators, consisting of two electrodes separated by a porous partition, are inert electrodes (for example, platinum), or one of them is of the second kind.

Such an indicator has a clear threshold, memory and, due to the reversibility of the system, fl can be repeatedly used. is

The disadvantages of this indicator are the high response times (.7 / 0.5 s) and return to the initial state (ten seconds). This is due to the use of either 20 inert electrodes on which oxidation-reduction solvent processes, background anions or other components of the solution occur during operation, which leads to deterioration of the indicator, or second-type electrodes with extremely low operating current densities (10-100 μA / cm ). In addition, when using indicators with electrodes 11 of a kind, transfer of a positive metal to an inert electrode and, thus, image distortion is detected. Such indicators withstand up to 10 cycles of operation with a minute period, after which a strong turbidity of symbols is observed.

The purpose of the invention is to increase the speed of formation - to remove color and increase the durability of the indicator.

Claims (3)

The goal is achieved by the fact that in an electrochemichromic voltage indicator containing two electrodes, one of which is inert, and an aqueous solution of derivatives, k dipyridyl, the non-inert electrode is made in the form of a modified electrode 11t of the genus. At the same time, the system 1tv)) gstv) 1 9NiNo) 1tv) In C € (j {solution) or the system CU (, 5 ,,,,, M 8 (tB), (solution), The drawing shows an electrochemically chrome voltage indicator, a general view. The indicator consists of two electrodes 1 and 2 between which electrolyte 3 is located. Electrode 1 is an optically transparent inert electrode and is a glass plate with segments formed from a current conducting layer 4. Electrode 2 is assembled on a QCH of a copper plate connected to a porous gasket 5, onto which it is applied The ion-exchange salt layer is a layer 6, which is fixed by another porous gasket 7. The use of a porous gasket with a thickness of 0.1 mm allows copper to ionize at high speeds with a small change in potential from the equilibrium (+0.05 V). At the same time, the presence in the solution absorbs copper ions and prevents their penetration to the colored layer and its destruction. The device works as follows: When an external power source is connected in an electrochemical system consisting of electrodes 1 and 2 and electrolyte 3 torus, in a loop form coloring electrons proceeds from the electrode 2 on the electrode 1, where the electrochromic material transmitted and ensure the flow of the restored electrochemical reaction element laziness colorless to colored organic cation. The image formation is carried out due to the course of the recovery process 9 4 only on individual segments / 4 of electrode 1, which is caused by the operation of the control integrated circuit. In the color removal cycle, the reverse transition of electrons takes place - from electrode 1 to electrode 2. Layer 6 serves to provide a chemical reaction of bonding the by-products of the electrochemical process and increasing the durability of the indicator. Porous gaskets 5 and 7 allow the electrochemical and chemical reactions to be separated in space and thereby increase the speed of the processes occurring in the electrode 111 of the genus. The proposed indicator can be used in single- and multi-digit digital indicators for multimeters, calculators and electronic parts, indicator failures of electronic circuits, On-Off panel. Claim J. Electrochemical voltage indicator containing two electrodes, one of which is inert, and an aqueous solution of 4,4-dipyridyl derivatives, characterized in that the non-inert electrode is made to increase the formation rate of the color-reduction And the durability of the indicator in the form of a modified electrode 111 of the genus. 2. The indicator according to claim 1, characterized in that the Co system is used as the type electrode 111; Cu (CgH6NO) ,,, tt {CgHf, NO), j (gj, ZnCg, 2) (solution; 3. The indicator according to claim 1, characterized in that the CTe system is used as a type electrode 111))). ) 1 (solution). Sources of information taken into account during the examination 1. USSR author's certificate No. 280643, cl. G 01R 19/16, 1968.