Quote: Originally posted by condennnsa  |
Pok, what is your opinion on Len1's attempt at this?
Couple of things that come in my mind, is that he used much coarser magnesium, and that he stirred the mix continuously. It seems that mg powder might
be more suitable for this procedure.
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I only read a little bit of his attempt:
1. He powdered the KOH. This is not necessary as I used commercially available KOH chips with success (although the chips will clump together at a
certain temperature). Maybe, during powdering the KOH absorbs water from the air due to its extremely high hygroscopicity. This could lead to so much
water in the reaction that all the Mg is used up to decompose the absorbed water and nothing is left to react with the KOH.
I personally opened the new KOH-bag very fast and weighted the KOH as fast as possible trying to avoid large water absorption from the air.
2. The Mg really looks very coarse. The best way to obtain a suitable size of Mg particles is (as I experienced) to file them off with a normal medium
file (not fine, not extremely coarse) by hand - not with a (drill) machine or so. I used Mg of about 99% purity (old printing plates). As the authors
of the patent don't give more details, I think Mg of 98-100% purity is OK. I think TOO fine Mg powder also wouldn't be the best way, because it could
react TOO fast (especially at the beginning where only water from the KOH is decomposed by the Mg and yields large amounts of hydrogen in a very short
time!)
3. I don't think that stirring continiously is really bad here (the patent really sais "continiously stirring"!). But it wasn't necessary in my case.
It might yield finely divided K-globules but they definitely should be visible. If you use a teflon coated stirrer, the teflon might react with the
potassium as someone on versuchschemie.de seems to have experienced.
4. Exclusion of air (which possibly wasn't ensured at his attempt) AND evolution of hydrogen must be ensured. The cheapest and easiest way for me was
a valve-like method (balloon with tiny hole). If you don't exclude the air really tightly potassium (which is swirled around in the mix by
turbulences) at the solvents surface will react with the tiniest amounts of oxygen and will be lost.
5. ensuring reflux is very important as the tiny neccessary amount of tert.butanol will otherwise be lost very fast.
6. len1 himself also took into consideration the possibility of impure agents. This could be a problem, of course.
Maybe my modifications just prevented some possible sources of trouble. Just compare my description with his one (also on the
original page versuchsschemie.de where you can read it in detail).
As I said, I've done the experíment several times with success. And even when there was "no success" I gained at least many tiny K-globules. So I
don't think that you can make many mistakes if you just do it the way i did it.
As condennnsa said, "Kremer Pigmente" offers Shellsol D70. This is my source. |
reaction vessel on aluminium foil with still liquid
potassium globes: