The presentation is not only about the major principles but also contains some additional issues, useful tips for more advanced researchers. I like it.
Hi, Yes, junction and diaphragm have been used interchangeably in the video because both serve the same purpose of allowing the outflow of reference electrolyte into the sample compartment. Hope this helps, in case of further personalized support please feel free to post your queries on ph.lab.support@mt.com
You can make your own ph pen probe storage solution (3 molar KCL) with ph 4 buffer solution + potassium chloride. Mix 1g potassium chloride (KCL) per 100ml ph buffer 4 solution to make 3 molar kcl storage solution. The gel dries out quickly if left in open air or is stored in reverse osmosis or tap water leeches potassium chloride ions as the probe tries to make equilibrium. Storing the probe submerged in 3 molar kcl storage solution is best (better than few drops in cap) for years of life out of the ph pen. Change the storage solution every 2-3 months. Not a scientist or student but a grower using common sense.
Electrodes should always be stored in aqueous and ion-rich solutions. This ensures that the pH-sensitive gel layer which forms on the pH glass membrane remains hydrated and ion rich. This is necessary for the pH membrane to react in a reliable way with respect to the pH value of a sample. Short term storage: In between measurements or when the electrode is not being used for brief periods of time, it is best to keep the electrode in a holder containing its inner electrolyte solution (e.g. 3 mol/L KCl), or in a pH 4 or pH 7 buffer. Ensure that the level of solution in the beaker is below that of the filling solution in the electrode. For long term storage: Keep the electrode wetting cap filled with the inner electrolyte solution, pH buffer 4 or 0.1 mol/L HCl. Make sure that the filling port for reference and combination electrodes is closed to avoid loss of the electrolyte solution through evaporation, which can cause the formation of crystals within the electrode and junction. Never store the electrode dry or in distilled water as this will affect the pH-sensitive glass membrane and thus shorten the lifetime of the electrode.
The presentation is not only about the major principles but also contains some additional issues, useful tips for more advanced researchers. I like it.
Glad you liked it!
21:45 ; 24:31 ; 29:08
Excellently explained!!
Thank you!
Great, thorough presentation! Thank you! :)
You're very welcome!
Are you using the terms "diaphragm" and "junction" interchangeably?
Hi,
Yes, junction and diaphragm have been used interchangeably in the video because both serve the same purpose of allowing the outflow of reference electrolyte into the sample compartment.
Hope this helps, in case of further personalized support please feel free to post your queries on ph.lab.support@mt.com
Great materials for PH measurement.
Thank you for watching!
You can make your own ph pen probe storage solution (3 molar KCL) with ph 4 buffer solution + potassium chloride.
Mix 1g potassium chloride (KCL) per 100ml ph buffer 4 solution to make 3 molar kcl storage solution. The gel dries out quickly if left in open air or is stored in reverse osmosis or tap water leeches potassium chloride ions as the probe tries to make equilibrium. Storing the probe submerged in 3 molar kcl storage solution is best (better than few drops in cap) for years of life out of the ph pen. Change the storage solution every 2-3 months. Not a scientist or student but a grower using common sense.
Electrodes should always be stored in aqueous and ion-rich solutions. This ensures that the pH-sensitive gel layer which forms on the pH glass membrane remains hydrated and ion rich. This is necessary for the pH membrane to react in a reliable way with respect to the pH value of a sample. Short term storage: In between measurements or when the electrode is not being used for brief periods of time, it is best to keep the electrode in a holder containing its inner electrolyte solution (e.g. 3 mol/L KCl), or in a pH 4 or pH 7 buffer. Ensure that the level of solution in the beaker is below that of the filling solution in the electrode. For long term storage: Keep the electrode wetting cap filled with the inner electrolyte solution, pH buffer 4 or 0.1 mol/L HCl. Make sure that the filling port for reference and combination electrodes is closed to avoid loss of the electrolyte solution through evaporation, which can cause the formation of crystals within the electrode and junction. Never store the electrode dry or in distilled water as this will affect the pH-sensitive glass membrane and thus shorten the lifetime of the electrode.
great explanation
Nice one
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nice1, hope this will help me.........
Great presentation...
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great
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great explantion thank you
Thank you for watching!