Electrochemistry: Stability test of reference electrode

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SUMMARY

The discussion focuses on the stability testing of reference electrodes in electrochemical systems, specifically using ferrocene as an internal reference. Users are advised to ensure ferrocene's solubility in the electrolyte and to conduct experiments with and without ferrocene to assess compatibility with analytes. The V3 potentiostat from Princeton Applied Research is utilized with a 0.1 NaNO3 electrolyte and Ag/AgCl reference electrode. Caution is advised against using aluminum in alcoholic solvents, recommending gold or platinum instead.

PREREQUISITES
  • Understanding of electrochemical systems and reference electrodes
  • Familiarity with potentiostat operation, specifically the V3 model from Princeton Applied Research
  • Knowledge of ferrocene solubility and its role as an internal reference
  • Basic principles of redox reactions and their measurement techniques
NEXT STEPS
  • Research methods for testing reference electrode stability in various solvents
  • Learn about the solubility and compatibility of ferrocene in different electrolyte systems
  • Investigate the effects of dissolved oxygen and aggregates on potentiostat readings
  • Explore the use of gold plating or platinum as alternatives to aluminum in electrochemical measurements
USEFUL FOR

Chemists, electrochemists, and researchers involved in electrochemical measurements and stability testing of reference electrodes will benefit from this discussion.

shay
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Dear subscribers

Re: Stability test of reference electrode

One of the important properties of reference electrode is its stability during measurements or potential scan. How one can check its stability in a certain electrochemical system?

One of the way is to use internal reference, for example ferrocene. However I am afraid that it will be involve in some chemical reaction with my electrolyte system as I replace it each time (I am doing some screening). In some cases the ferrocene may not be dissolved properly.

Are there any other methods that I can use to test the reference stability?
 
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Are you utilizing a potentiostat? Please describe your experiment as well as the equipment.
 
If you are worried about ferrocene not dissolving, make sure that it does dissolve or that it is dissolved in the matrix electrolye before you add it to your sample. Do this with the matrix electrolyte with and without your analyte to see if ferrocene is compatible. If you are worried about ferrocene's compatibility with your analyte, you need to analyze your sample analyte with and without ferrocene and do so over several time periods to note any change. You might also add ferrocene to your analyte and let it set for some time and then filter it through a very fine filter (.2 micron, for example) to see if any solids are produced. Do this test for pure matrix and analyte + matrix as well to ensure that your system is stable under the measurement conditions (air sensitive, CO2 sensitive, etc...).

good luck with it.
 
Thank you Chemisttree and GCT.

As for GCT, my system includes: V3 potentiostate of Princeton Applied Research, the electrolytes is 0.1 NaNO3 in water (However I wish to move to alcohols and also to non-polar solvents with very low conductivity). The reference electrode is Ag/AgCl in sat'd NaCl. The WE can be change. Now I am focusing on Al.

How I can be sure that my reference is stable in different systems. Maybe it is unstable in non-polar solvents?
 
I've used the silver chloride as a reference electrode however in 3 M KCl - from what I remember you want to keep the solution in the reference electrode relatively similar to that in the solution with respect to the chemical species although this probably is not a big factor; I've had no problems with the silver chloride electrode however some variations in the potentiostat readings can actually be due to dissolved oxygen and if aggregates are present in the solution they can also take up charge and contribute to bad readings.

For instance I had Resorufin aggregates which took up charge to become resorufin which was the actual analyte being titrated; since the potentiostat reading is proportional to the ratio of the redox species of resorufin the aggregate contributed to strange readings.
 
shay said:
Thank you Chemisttree and GCT.

As for GCT, my system includes: V3 potentiostate of Princeton Applied Research, the electrolytes is 0.1 NaNO3 in water (However I wish to move to alcohols and also to non-polar solvents with very low conductivity). The reference electrode is Ag/AgCl in sat'd NaCl. The WE can be change. Now I am focusing on Al.

Do not use Al in an alcoholic solvent. Use gold plating or platinum only.
 

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