Difference between revisions of "Cleaning and Polishing Voltammetric Electrodes"

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=== Materials ===
 
=== Materials ===
Polishing materials can be obtained from Buehler Inc, http://www.buehler.com/consumable such as:
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Polishing materials can be obtained from [http://www.buehler.com/consumable Buehler Inc]such as:
 
*MetaDi II Diamond Paste, Monocrystalline Synthetic Diamond, 1 micron, 5g Cat #40-6244. Use for extreme abrasive cleaning.
 
*MetaDi II Diamond Paste, Monocrystalline Synthetic Diamond, 1 micron, 5g Cat #40-6244. Use for extreme abrasive cleaning.
 
   
 
   

Revision as of 15:33, 21 March 2013

These procedures are recommended for eDAQ voltammetric disk electrodes:

  • ET074 Gold Disk Electrode
  • ET075 Platinum Disk Electrode
  • ET076 Glassy Carbon Disk Electrode
  • ET079 Copper Disk Electrode


Safety

Polishing powders comprise submicron sized particles which can be dangerous, especially if inhaled. Please follow your local safety guidlines and especially work in a well ventilated environment.

Materials

Polishing materials can be obtained from Buehler Incsuch as:

  • MetaDi II Diamond Paste, Monocrystalline Synthetic Diamond, 1 micron, 5g Cat #40-6244. Use for extreme abrasive cleaning.
  • MetaDi II Diamond Paste, Monocrystalline Synthetic Diamond, 0.25 micron, 5g Cat #40-6241. Use for heavy duty abrasive cleaning.
  • Buehler Nylon polishing pads, PSA backed 4″ (102mm) diameter Cat #69-3106 (QTY 100)

For routine or final polishing:

  • MasterPrep Alumina Polishing Suspension, 0.05 micron, 6 oz, Cat #63-6377-006
  • MicroCloth polishing pads, PSA backed 4″ (102mm) diameter Cat #69-3108 (QTY 20)

These polishing pads have a pressure sensitive adhesive (PSA) backing and can be affixed to a glass plate to ensure a flat surface. Local lapidary supply companies may have equivalent products.

Addition of the powders to a polishing pad is often best done by first suspending the powder in a wash bottle containing ethanol, and then adding a small amount of the suspension (shake well before use) to the pad.

General Procedure

Resist the temptation tend to over-polish the electrodes. In most cases the electrode remains clean after the experiment, or could be washed clean with suitable organic solvent to remove greasy organic materials, or dilute acid or base (0.1 mol/L HCl, HNO3, NaOH) to remove inorganics. Protein deposits can be hydrolysed with an appropriate commercial enzyme-based cleaner.

Mercury films on platinum or glassy carbon substrates can be removed by gently wiping the electrode tip with lab tissue (dispose of tissue in mercury waste container) any residual mercury can be removed by holding the electrode at an oxidizing potential (eg +1 V) in dilute acid solution.

Only if there is an intractable coating electrodeposited on the electrode, or after extended use, will the electrode need any polishing at all. Polishing should only be done if there is visually obvious surface contamination (use a magnifying glass) or where a trial cyclic voltammogram in clean solvent indicates that there has been surface contamination. Standard maintenance polishing should use 0.05 micron polishing powder, only a badly scratched electrode, or one with an extremely intractable coating would need to use coarser (larger particle size) powders.

While automatic polishing machines might be useful if large numbers of electrode have to be polished on a regular basis, hand polishing is more usual in a research or teaching lab.

When hand polishing grip the electrode low down (near its tip) and hold it in a vertical position while making figure-8 motions on the polishing pad which is moistened with deionized water and to which has been added a small amount of polishing powder suspension. After three or four of the figure-8 motions turn the electrode through 90 degrees in your grip and repeat the figure-8 movement. The aim is to ensure even wear on the electrode tip so that a flat surface is maintained.

If you have previously used glass body electrodes then be aware that PEEK or Teflon body electrodes need significantly less downwards pressure to be applied while polishing. Also note that coarse powders (more than 0.05 micron) will cause extensive abrasion of the electrode surface which then takes a lot more polishing with 0.05 micron alumina powder to obtain a mirror smooth finish.

After polishing, use the figure-8 motion on a clean MicroCloth polishing pad (no powder) to remove any adherent material.

eDAQ PEEK body working electrodes will withstand sonication but only immerse the tips of the electrode. Do NOT immerse the electrical contacts.

ET069 and ET072 Leakless Reference Electrodes

The tip of these reference electrodes can become fouled with use. The tip of the ET072 can be washed or lightly polished (like a working electrode) to remove intractable adhering material, and in extreme cases you can even use a scalpel, or razor blade, to shave a thin slice from the tip, which exposes fresh polymer junction.

Summary

  1. Only polish when absolutely necessary.
  2. Use only light downwards pressure when polishing. When polishing manually grip the electrode at its base (ie the end where it is being polished)
  3. Only use 0.05 micron powder for routine polishing.
  4. Only use coarser powders if absolutely necessary for very contaminated electrodes.