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Author: Subject: The lead salts preparation thread!
Fantasma4500
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[*] posted on 2-3-2013 at 13:12


Pb(ClO4)2 easily made

i happen to have access to NH4ClO4
aswell as i can make PbCO3 very easily (lead acetate + sodium carbonate, filter)
i cant really spot anything that should make this reaction impossible (NH4ClO4 + PbCO3 > (NH4)2CO3 + Pb(ClO4)2)
what i like about this is that NH4ClO4 is by what i understand alot more safe to store and alot easier to buy, PbCO3 is pretty easy to make, and most of all, the (NH4)2CO3 should decompose at ~60*C IN SOLUTION
i havent gotten around to do this.. yet...
i assume that it could possibly be explosive based on how Pb(ClO2)2 acts under heating, and also the fact that you shouldnt ever let a solution of Pb(ClO4)2 dry out (small amounts, more control, more knownledge)
and if it wouldnt be explosive by itself, it should act as a brilliant oxidizer..




~25 drops = 1mL @dH2O viscocity - STP
Truth is ever growing - but without context theres barely any such.

https://en.wikipedia.org/wiki/Solubility_table
http://www.trimen.pl/witek/calculators/stezenia.html
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[*] posted on 2-3-2013 at 14:23


Quote: Originally posted by Antiswat  

.... i cant really spot anything that should make this reaction impossible (NH4ClO4 + PbCO3 > (NH4)2CO3 + Pb(ClO4)2)


Well... other than the fact that lead carbonate is virtually insoluble (.00011g/100ml) that is... :)
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[*] posted on 2-3-2013 at 14:30


Does anyone have an interesting way to start with lead(III) ions?



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[*] posted on 2-3-2013 at 14:40


Do you mean Pb(II) or Pb(IV)? And what are you starting exactly?

Lead doesn't have a +3 (unless there's some strange complex which exhibits it, but that's practically cheating).

Tim




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[*] posted on 2-3-2013 at 14:48


yes, I meant lead +3. Pb(III), and I know it is not common, but I thought there would be some sort of temporary stable compounds like hypomanganates, which aren't always stable.



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[*] posted on 3-3-2013 at 05:42


AFAIK, no one here has attempted anything re. Pb (III).



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[*] posted on 23-3-2013 at 19:08
Lead Dioxide


This afternoon I prepared some lead dioxide on a 100 mmol scale.

33g lead nitrate was dissolved in about 80mL warm distilled water. A mixture of 150mL 6% sodium hypochlorite and 25mL 10M sodium hydroxide was added at once. Instantly, a bright orange precipitate was formed, which slowly began to darken in color. The reaction mixture was heated just below boiling for about 15 minutes, until the precipitate turned a uniform dark brown. This was then gravity filtered and washed with ~400mL of tap water. The filter cake was dried with a desk lamp for about four hours. Yield was 21g, or 88%.

PbO2.jpg - 73kB
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[*] posted on 24-3-2013 at 06:07


Nice! With freshly prepared PbO2 you can make the interesting salt (NH4)2PbCl6 (ammonium hexachloroplumbate) which no one here seems to have attempted yet. Adding chilled conc. H2SO4 to it liberates PbCl4 as a dark, heavy, oily liquid.



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[*] posted on 24-3-2013 at 06:55


Well, I once made pyridiniumhexachloroplumbate (which is very similar to the ammonium salt) by saturating a suspension of lead(II)-chloride in HCl with chlorine and precipitating the product with pyridine. Then I decomposed the pyridiniumhexachloroplumbate to PbCl4 with sulfuric acid: Lead Tetrachloride
I don´t remember a procedure, that uses lead dioxide.

Something interesting might be to attempt a synthesis of lead tetraacetate with the PbO2 (usually red lead is used) and to use the product afterwards to do a cleavage of an 1,2-diol, like for instance: Synthesis of n-butyl glyoxylate
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[*] posted on 24-3-2013 at 07:06


Quote: Originally posted by Heuteufel  
I don´t remember a procedure, that uses lead dioxide.



The following is from a *.pdf I picked up (I don't recall the url):

(b) Synthesis of (NH4)2PbCl6 from PbO2. It is imperative that the following reactions be performed in icecold
solutions. In a 50 mL beaker add a volume of saturated NH4Cl solution (10 mL), and in a 10 mL
beaker add concentrated (care!) HCl (5 mL). Cool both solutions thoroughly in ice. With the beaker
containing the HCl still in the ice bath, slowly add PbO2 (prepared above), with constant stirring (glass
rod); a yellow solution should be obtained. In some cases, a small amount of white precipitate will appear
at this stage; this does not influence the outcome of the reaction, however note its appearance and keep it
in mind when conducting the tests that follow. In the event that some white precipitate does appear after
adding all of the PbO2, leave the yellow solution in the ice bath for a few minutes so as to allow it to settle.
Next, quickly but carefully decant the yellow solution into the ice-cold NH4Cl solution (still in the ice
bath) with stirring, making sure to leave behind any white solid that may have previously appeared. Allow
the mixture to sit in the ice bath for several minutes in order to complete the precipitation, and then filter
the (NH4)2PbCl6 product (Buchner) from the mixture. Do not wash the product with water as it is very
soluble in this solvent. Allow the product to air dry (they may be stored in the locker until the next
laboratory session) and record the yield.


Fresh PbO2 is apparently quite soluble in concentrated HCl.

But your salt is interesting too.

[Edited on 24-3-2013 by blogfast25]




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[*] posted on 24-3-2013 at 12:44


Hmm, interesting! I once made lead dioxide from lead(II)-nitrate using sodium persulfate as an oxidiser (I prefer this method to the hypochlorite method) and I remember, I had serious problems cleaning the glassware particularly the glass frit I used for filtration. Cold HCl (37 %) had some effect, but not much, heating the acid helped to some extent...
Therefore I am somewhat surprised, but I don´t say, that the procedure doesn´t work. I must also admit, that I did the synthesis some time ago and thus my memories are somewhat vague...;)
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[*] posted on 25-3-2013 at 08:45


Quote: Originally posted by Eddygp  
yes, I meant lead +3. Pb(III), and I know it is not common, but I thought there would be some sort of temporary stable compounds like hypomanganates, which aren't always stable.

I'd be *very* surprised if you could make a stable lead(III) compound, as that would be a 6s1 electron configuration. The s electrons (unlike the d electrons of manganese) usually come off as pairs.




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[*] posted on 25-3-2013 at 10:46


Quote: Originally posted by DraconicAcid  
I'd be *very* surprised if you could make a stable lead(III) compound, as that would be a 6s1 electron configuration. The s electrons (unlike the d electrons of manganese) usually come off as pairs.


Sure, but there are plenty 'exceptions' to these simple 'rules'. There are electron deficient compounds too, see boranes e.g. But Ive never heard of Pb(III).




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[*] posted on 25-3-2013 at 12:00


Quote: Originally posted by blogfast25  
Quote: Originally posted by DraconicAcid  
I'd be *very* surprised if you could make a stable lead(III) compound, as that would be a 6s1 electron configuration. The s electrons (unlike the d electrons of manganese) usually come off as pairs.


Sure, but there are plenty 'exceptions' to these simple 'rules'. There are electron deficient compounds too, see boranes e.g. But Ive never heard of Pb(III).

I suppose a diplumbane such as hexamethyldiplumbane would technically be lead(III), it's not an ionic compound. Neither Cotton & Wilkinson nor Greenwood's Chemistry of the Elements mention lead(III) as a possible oxidation state (although they do mention the Zintl-type anions such as Pb52-.




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[*] posted on 25-3-2013 at 13:00


Quote: Originally posted by DraconicAcid  
I suppose a diplumbane such as hexamethyldiplumbane would technically be lead(III), it's not an ionic compound. Neither Cotton & Wilkinson nor Greenwood's Chemistry of the Elements mention lead(III) as a possible oxidation state (although they do mention the Zintl-type anions such as Pb52-.



In hexamethyldiplumbane each Pb atom would share four electrons with other atoms: that's oxidation state IV by definition. The inter-Pb bond would still be an orbital with shared elctrons.



[Edited on 25-3-2013 by blogfast25]




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[*] posted on 25-3-2013 at 13:45


Quote: Originally posted by blogfast25  
Quote: Originally posted by DraconicAcid  
I suppose a diplumbane such as hexamethyldiplumbane would technically be lead(III), it's not an ionic compound. Neither Cotton & Wilkinson nor Greenwood's Chemistry of the Elements mention lead(III) as a possible oxidation state (although they do mention the Zintl-type anions such as Pb52-.



In hexamethyldiplumbane each Pb atom would share four electrons with other atoms: that's oxidation state IV by definition. The inter-Pb bond would still be an orbital with shared elctrons.
[Edited on 25-3-2013 by blogfast25]


I think that would be a valence of four by definition, but not an oxidation state.




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[*] posted on 26-3-2013 at 12:32


Quote: Originally posted by blogfast25  
Quote: Originally posted by Heuteufel  
I don´t remember a procedure, that uses lead dioxide.



The following is from a *.pdf I picked up (I don't recall the url):

(b) Synthesis of (NH4)2PbCl6 from PbO2. It is imperative that the following reactions be performed in icecold
solutions. In a 50 mL beaker add a volume of saturated NH4Cl solution (10 mL), and in a 10 mL
beaker add concentrated (care!) HCl (5 mL). Cool both solutions thoroughly in ice. With the beaker
containing the HCl still in the ice bath, slowly add PbO2 (prepared above), with constant stirring (glass
rod); a yellow solution should be obtained. In some cases, a small amount of white precipitate will appear
at this stage; this does not influence the outcome of the reaction, however note its appearance and keep it
in mind when conducting the tests that follow. In the event that some white precipitate does appear after
adding all of the PbO2, leave the yellow solution in the ice bath for a few minutes so as to allow it to settle.
Next, quickly but carefully decant the yellow solution into the ice-cold NH4Cl solution (still in the ice
bath) with stirring, making sure to leave behind any white solid that may have previously appeared. Allow
the mixture to sit in the ice bath for several minutes in order to complete the precipitation, and then filter
the (NH4)2PbCl6 product (Buchner) from the mixture. Do not wash the product with water as it is very
soluble in this solvent. Allow the product to air dry (they may be stored in the locker until the next
laboratory session) and record the yield.


Fresh PbO2 is apparently quite soluble in concentrated HCl.

But your salt is interesting too.

[Edited on 24-3-2013 by blogfast25]


It would seem that fresh PbO2 is not strictly required... I used an old commercial source of it and followed the instructions you quoted above, with nice results, just for fun:)

image.jpg - 93kB
Dissolved 400mg PbO2 in 5ml conc. HCl, nice yellow solution was produced.
image.jpg - 80kB
After dumping into ice cold saturated NH4Cl
image.jpg - 68kB
Filter cake...
image.jpg - 68kB
Product drying in a dish, final weight to be determined...
image.jpg - 82kB
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[*] posted on 26-3-2013 at 13:20


Well, well, well, what a lovely confirmation there, MIMP, well done!

The yellow solution (second photo) must essentially be H2PbCl6 with excess HCl.

Now if you put some chilled conc. H2SO4 on dry, cold (NH4)2PbCl6 you should observe a dark oily liquid: PbCl4. Careful with that, I'm not sure how stable it is!

The homologous (NH4)2SnCl6 also exists and is easy to synth too. Named 'pink salt' it was once an important dye mordant for bright pinks, like Pink Madder or Cochenille.



[Edited on 26-3-2013 by blogfast25]




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[*] posted on 26-3-2013 at 13:30


Quote: Originally posted by blogfast25  
Well, well, well, what a lovely confirmation there, MIMP, well done!

The yellow solution (first photo) must essentially be H2PbCl6 with excess HCl.

Now if you put some chilled conc. H2SO4 on dry, cold (NH4)2PbCl6 you should observe a dark oily liquid: PbCl4. Careful with that, I'm not sure how stable it is!


Well, I figured it would give me a reason to use my prehistoric bottle of PbO2! I'm thinking the same as you regarding the yellow solution, there was also quite a bit of chlorine gas produced during the addition of PbO2 to the HCl but not intolerable in the small amounts used. The preparation doesn't specify how much PbO2 was produced in "the previous experiment" and I got a little too spatula-happy and added too much. This resulted in a mucky dark suspension, so I re started the experiment. In retrospect I could have just added more HCl but had a dumb moment and didnt think to do so... Fail.

Otherwise it's pretty interesting to watch, when the PbO2 is added there is a vigorously fizzing dark liquid, and all of a sudden it clears to bright yellow and you can continue adding in small amounts. Fun!

Once the product is completely dry I am definitely going to try the H2SO4 carefully, and take some pictures of the results.

*edit* just saw your comment about the tin pink salt, I will definitely give that a try too. I love making inorganic salts for some reason :P

[Edited on 26-3-2013 by Mailinmypocket]
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[*] posted on 26-3-2013 at 13:42


Yes, these salts are quite satisfying to make. On the synth of 'pink salt' there's a thread of mine here somewhere. Search for 'hexachlorostannate', if you're interested. It starts from pewter but you can start from tin or SnCl2 too.



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[*] posted on 26-3-2013 at 15:31


I attempted to make K2PbCl6 using the same procedure for the ammonium salt, except obviously with saturated KCl. Nothing precipitated when I added the PbO2/HCl, and only after sitting in the ice bath for about 30 minutes did a small amount of what looked like fine yellowish crystals drop out of solution. It was kind of hard to tell since the color of the liquid was still bright yellow. I'm thinking the precipitate might just be PbCl2 from partial decomposition. I'll try the ammonium salt whenever I get some NH4Cl.

[Edited on 27-3-2013 by KernelPicnic]
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[*] posted on 26-3-2013 at 16:39


Quote: Originally posted by KernelPicnic  
I attempted to make K2PbCl6 using the same procedure for the ammonium salt, except obviously with saturated KCl. Nothing precipitated when I added the PbO2/HCl, and only after sitting in the ice bath for about 30 minutes did a small amount of what looked like fine yellowish crystals drop out of solution. It was kind of hard to tell since the color of the liquid was still bright yellow. I'm thinking the precipitate might just be PbCl2 from partial decomposition. I'll try the ammonium salt whenever I get some NH4Cl.

[Edited on 27-3-2013 by KernelPicnic]


If you can get some ammonia solution somewhere you could react that with the HCl you have and dry it out to get NH4Cl crystals
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[*] posted on 26-3-2013 at 16:54


Quote: Originally posted by Mailinmypocket  

If you can get some ammonia solution somewhere you could react that with the HCl you have and dry it out to get NH4Cl crystals


I've done that before, but with generic household ammonia the product turned out slightly yellow. I tried subliming it, but that never worked out very well, and the result just looked worse, so I ended up throwing it away. Whatever impurities may have been in there probably wouldn't make a difference anyway now that I think about it.
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[*] posted on 28-3-2013 at 12:23
PbCl4


Just for a small test I added some conc. H2SO4 to a few small granules of (NH4)2PbCl6. There was an immediate reaction, and a cloudy yellow mix was produced. The quantities used were so small that it was very difficult to see any oily substance, when I took a small sample out of the tube there was obvious fuming in the air. I will be scaling it up now that I was able to see that the reaction is not terribly violent. Just need to wait to have my fume hood back up and running before doing that.

Apologies for the small scale- it's a bit hard to see anything interesting and I wanted to have an obvious sample to show, but you get the idea! Ill attach a video of the fuming nature of the liquid later on once YouTube "approves" it.


image.jpg - 72kB image.jpg - 71kB
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[*] posted on 28-3-2013 at 13:36


Water and sulphates may be the enemy of this reaction, though. Water because PbCl4 hydrolyses easily, sulphates because of insoluble lead sulphates. Better to 'keep your powder dry', as they say!



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