DK150997B - ELECTRODE UNIT FOR MEASURING OXYGEN CONCENTRATION WITH PROTECTION MEMBRANE FOR THE REDUCTION ELECTRODE - Google Patents

Description

150997

The invention relates to an electrode assembly for measuring an oxygen concentration consisting of a reference electrode, a reduction electrode of precious metal, an electrolyte, an oxygen-permeable but impervious termination membrane, and terminating the assembly against the surrounding space, and further an oxy-permeable membrane located in the electrolyte immediately in front of the reduction electrode.

The known assemblies have two major disadvantages. First, the transport of impurities formed on the electrodes cannot be prevented even by the choice of particularly suitable precious metals for the electrodes, so that the electrodes show operating symptoms which prevent an unlimited life. Second, as a result of the measurement itself, oxygen consumption is so high that, in principle, it causes disturbance of the diffusion field in the mostly measured organic tissues. To prevent this, an attempt has been made to increase the diffusion resistance. For this purpose, in accordance with United States Patent No. 3,985,633, it is proposed to place an additional membrane between the termination membrane and the reduction electrode. However, by increasing the diffusion resistance, the measurement time also becomes considerably longer. Therefore, the true oxygen concentration cannot be determined or only determined with long measurement times.

These disadvantages can be mitigated by an aggregate according to the invention in that the oxygen-permeable membrane is permeable to hydrogen ions and contains a cationic ligand and that the electrolyte contains ligand cations.

In this aggregate, only reaction materials, and not also the material of the electrolyte or model electrode, come into contact with the reduction electrode due to the selectivity of the ligand membrane, so that physical and chemical changes at the reduction electrode fail and the durability is significantly increased. The ligand membrane is permeable to oxygen but substantially reduces the rate of diffusion of oxygen, which is why the change in oxygen concentration due to the measurement becomes small.

To take advantage of this advantage, the amplifier which measures the input signal has an input resistance with a value of about 1012 ohms. Particularly favorable conditions exist when the ligand is sodium ion selective. For it has been found that. a signal that is clearly visible and proportional to the oxygen concentration appears. Preferably, as the ligand, 3,6-dioxaoctanedioic acid bis-diphenylamine is used.

15

According to a particularly convenient embodiment of the invention, the electrolyte consists of 10 mM NaCl and 0.1 M HCl.

In another further development of the invention, the reference electrode is covered by a ligand membrane which contains a ligand different from the ligand present in the membrane covering the reduction electrode. This also prevents a physical or chemical attack on the reference electrode.

With the assembly according to the invention, it is also possible to measure, in a manner known per se, amperometric, ie with a measuring resistance of about 106 ohms, which produces a static particle flow in the measuring system. In this application, the advantage remains that the electrodes are physically and chemically protected.

35 150997 3

An assembly according to the invention is schematically shown in the drawing.

The electrode assembly comprises a reduction electrode 2, 5 applied to a polarization voltage from a DC voltage source 1, and a preferably annular reference electrode 3 located above the reduction electrode. A diaphragm 20 of PVC containing both hydrogen ions and oxygen, and in front of the reference electrode is a ligand membrane 30 which contains a ligand different from the ligand membrane 20. Ligand membrane 30 may also be omitted. The ligand of the ligand membrane 20 is preferably 3,6-dioxaoctane-diacetic acid bis-diphenylamine. An electrolyte 5 covers the overall assembly which is terminated by a terminating membrane 6 against the surrounding space. The electrolyte consists of 10 mM NaCl and 0.1 M HCl when no ligand membrane 30 is provided. If a ligand membrane 30 is provided, the electrolyte must further contain the ion of that ligand.

If a certain oxygen concentration 7 is present in the surrounding space, then oxygen diffuses through the teflon membrane 6 and further along with hydrogen ions from the electrolyte 5 through the ligand membrane 20. Water is produced after the reduction of oxygen along with hydrogen ion according to equation 30 02 + 4e-> 20 + 4H + = 2H20

The potential change of the electrode 2-20 in the potential chain resulting from this method consisting of electrodes 2-20, 3-30, electrolyte 5 and polarization voltage 35

Claims (7)

The source 1 is measured by a measuring amplifier 4 with indicator. The measuring amplifier 4 has an input resistance of about 1012 ohms. An electrode assembly for measuring an oxygen concentration consisting of a reference electrode (3), a reduction electrode (2) of noble metal, an electrolyte (5), a terminating membrane (6) which is permeable to oxygen but impervious to water, and terminating the assembly against the surrounding space, and further an oxy-permeable membrane (20) located in the electrolyte (5) immediately in front of the reduction electrode (2), characterized in that the membrane (20) is permeable to hydrogen ion ex and contains a cation ligand, and that the electrolyte: (5j contains ligand cations ^ 2. A unit according to claim 1, characterized in that an amplifier (4) measuring the signal of the unit has an input resistance of about 1012 ohms. An aggregate according to claim 1, characterized in that the ligand is sodium ion selective. An aggregate according to claim 3, characterized in that the ligand is 3,6-dioxaoctanedioic acid bis-diphenylamine. An assembly according to claim 1, characterized in that the electrolyte (5) consists of 10 mM NaCl and 0.1 M HCl. An assembly according to claim 1, characterized in that the reference electrode (3) is covered by a ligand membrane (30) containing a ligand different from the cation ligand of the ligand membrane (20). 150997 An assembly according to claim 1, characterized in that the ligand membranes (20, 30) consist of PVC.