ABSTRACT
Electrochemical bipolar polarization of a solid-state electrode is realized in the case of a special electrode switching circuit, when an electrode without an external electrical contact is placed in the electrochemical cell between two electrodes connected to an electric current source. When the current flows between the first pair of electrodes, the power lines of the current interact with the third electrode, causing “induced” polarization in it. This phenomenon is used here for the development of measurement technology.
It is most effective for the development of a polarograph scheme with a solid-state electrode. The polarograph scheme, proposed in the paper, contains two electrochemical cells: polarographic and electrochemical. In the first one, a polarized bipolar wire platinum electrode is mounted, which is equipped with a movable contact to measure the current value of the potential; in the second, the working electrode and the reference electrode. The potential measured on the wire electrode is fed to the potentiostat input. At the potentiostat output, a current signal is synchronously generated. The current from the potentiostat output passes through the working electrode, so that the value of the working electrode potential coincides with the potential of the wire electrode at the point of contact with its movable contact.
232A device for quantitative measurement of porosity of galvanic cathode coatings is also proposed. The calibration dependence links the results of the contact measurements of porosity and current corrosion flowing in microgalvanic vapor in the coating pores. The potential of the test sample, corroding in stationary conditions, is fed to the potentiostat input; the current at its output corresponds to the corrosion current density of the part.
Then, we consider a device for the organism detoxification and treatment by electrochemical synthesis of sodium hypochlorite and elemental hydrogen in the blood stream directly in the blood vessel from the components that make up the blood, on the surface of the wire electrode introduced into the blood vessel, and polarized by a pair of overhead electrodes.
