Chloropicrin and its Odor

This morning, I performed the reaction between Nitromethane (mine was 30%, with castor oil and methanol- keep this in mind), and 6.00% Sodium Hypochlorite Bleach.

The way I went about doing it was rather crude... I simply heated up a Mason Jar with hot water, poured in 50 mL of Nitromethane, and then added an excess of bleach. I then stirred for 20 minutes.

A reaction definitely did take place, because there was an immediate color change (from the Nitromethane mix's original blue) occurred and heat was given off.

As I performed this reaction, a strange smell was given off, which I suspect was that of Chloropicrin... but I have never smelled Chloropicrin, and nor can I find any specific details about its smell. It was a sweet odor, but not terribly pungent. However, whenever I smelled it, irritation of the eyes and throat promptly followed. The smell was not painful to breathe, like Chlorine or Ammonia, but it did really irritated the eyes...it felt like Onions. It also caused coughing, and later slight wheezing.

What I need to know is, what does Chloropicrin smell like?? I mean, specifically- not just "strong and sharp and irritating," because that is not very descriptive...

Also, could any side reactions have taken place? I mean, could the Methanol have reacted with the NaOCl, or the Castor Oil with the NaOCl, to produce another compound that has a sweetish odor?

Also- I would like to describe to you what my reaction mixture looked like after the 20 minutes: It was mostly reddish/brown, and at the top of it there was a clearish/bluish looking oily liquid, but not much. Also, there was some flaky compund. I suspect that this would have been the NaOH that is formed from the reaction between Nitromethane and the Hypochlorite.

Anyone want to help their old buddy Samosa? Not just for me though; perfection of this method offers an EASY and CHEAP way to Chloropicrin, with 95% yields! Keep in mind, I did this reaction in Mason Jars with impure chemicals...

[Edited on 5-18-03 by Samosa]

Sorry Samosa, but my book only says, 'stinging, pungent odor'. I can give your some other 'stats' on it though to help you figure out what it is.
Real name : Nitrotrichloromethane.
Physical state: Colorless oily liquid
Boiling point: 112 C
Non-flammable. Soluble in organic solvents but not in water. No hydrolysis in water. Decomposes under the influance of light (UV). "Irritates nose and throat; causing tearing; irritates lungs at higher concentrations; causes nausea and vomiting; can cause skin lesions" It's also very soluble in fats and oils, so organs can absorb it.
Well, I'd hate to get this stuff stored in my lungs.

Copious amounts of tears you say? Hah. That's what I am suffering through as I type- I'm redoing the reaction with my previous mistakes corrected.

As I add the Nitromethane mixture to the Hypochlorite, I get that sweet smell, and that is promptly followed by coughing (irritation in back of throat, and in chest too!) and lots of tearing.

I am now confident that I have CHloropicrin, now the problem is just separating it out .

Success! (Pretty sure, at least)

I read somewhere that because of the chloropicrine the victims commited suicide. That was back in the WWI.
Hey, Samosa, beware. It would be pitty to loose such a good member

No worries mate, I only have a little bit of the stuff (less than 10 mL), and it is securely sealed off.

However, now I will list some of my personal observations with Chloropicrin...

The odor reminds me of the smell of some Halocarbons, somewhat like Acetone, but with the strong smell of Chlorine mixed in. About 1 or 2 seconds after smelling it, the eyes feel like they would after cooking with Onions- basically, you're forced to close them. This is also accompanied by tearing. If you stay in the presence of the vapors longer, and actually inhale them, it irritates the back of the throat and causes coughing. However, I never noticed any upper; respiratory irritation, as would be caused by straight Chlorine.

After exposure, coughing continues for a few more minutes; but not too long. The chest gains a slight feeling of tightness, but not so much that it is uncomfortable. This tightness lasts for about a day.

That's all for now! Basically, I've summed up all the symptoms of acute exposure; but I hope to have made it seem more realistic, you know? Reading this off an MSDS sheet just doesn't have the same effect.

All in the name of science!

a potent weapon

The Chloropicrin/Castor Oil that I was using in the day's experimenting had hardened onto some of my glassware (measuring cup and jam jars ). So, knowing that Chloropicrin is very soluble in Ethanol, I used that to clean off my equipment.

That was well and good, but then I went to pour out the Ethanol in the washroom (closed area). What I suspect happened is that the Ethanol made the Chloropicrin much more volatile, so that as I poured it down the drain, the concentration of Chloropicrin in the air climbed very rapidly. Naturally, it did what it is designed to do to the body: coughing, eye pain, tearing, throat pain, upper respiratory irritation (surprisingly, this part did not hurt so much, just a tingly feeling in the nose), chest pain, and vomiting (did not actually vomit, but felt like I was about to). So, I rushed to another bathroom to be near a toilet in case I did vomit. There, I noticed a feeling in my chest as if I'd swallowed a huge air bubble, and my heart rate increased.

But now I am good, after breathing some fresh air .

Now, what is to be learned? NEVER dispose of chemicals in the bathroom! Or at least, don't do it without a gas mask on.

What else is to be learned? That this is a potent weapon, should that be what you are interested in... Chloropicrin dissolved in a volatile solvent, such as Ethanol. Ether or Methylene Chloride would be even better.

But, experimentation with the Chloropicrin is finished for today!

[Edited on 10-21-03 by Samosa]

I made it ages ago and I remember getting those flashbacks. It wasn't painful but I could smell a hint of it every now and again. I would discribe the smell as painful chlorinated Liquorice
Also I remember yields being very bad using TNP and sodium hypochlorite.

I do think that by reacting alkali with chloropicrin, you get trichloronitronates - especially as chloropicrin is described as "extremely acidic". I think the raction is just kinetically hindered, so heating could help ( if you are looking forward to this reaction as a way of storing chloropicrin).

Sodium Hydroxide should decompose Chloropicrin to less aggressive molecules. As for me, I've always taken the flush-it and forget-it route . May the fish forgive me .

I think that chloropicrin + sodium hydroxide =. Sodium chloride + water + sodium nitroacetate. The nitroacetate ion could then be alkalysed into sodium nitrite and sodium carbonate.
I made a mistake previously, stating the nitronate ion as CH3NO3H-. It's actually CH2NO2-. Can't see how trichloronitronate is possible, maybe the hbydroxide can join across the molecule?

Reduction of Chlorpicrin in an Acid Environment is very dangerous!! That will not safetly decompose Chloropicrin, it will form much more dangerous Phosgene Oxime. That is actually the synthesis route of Phosgene Oxime: Chloropicrin is dissolved in an Aprotic solvent, HCl is bubbled through, and it is reduced with Tin or Zinc.

For some reason I have been bit by the chloropicrin bug again, and decided to produce a small amount via the TNP route.

First, 1g of TNP was measured out into a 250ml Erlenmeyer flask. This was taken out into the garage along with 200ml of 6% bleach. I was going with .004 molar amounts for each chemical, and this ratio is near stoichiometric. I donned my respirator and added the bleach to the TNP. Upon contact, the TNP fizzed a bit with what I remember to be reddish bubbles. This subsided soon as the rest of the beach was added. What I had now was a orangish liquid in the beaker.

I then walked away, leaving it on the garage floor to react. I just wandered around the garage for a while, looking at some the chemicals we have on the shelves, wondering what I could use them for. I remembered the chloropicrin, so I walked over to the flask. My eyes started twinging when I was near it. Suprised, I jumped back. I stepped around 20-30 feet away, removed my mask a bit and carefully sampled the air...and about choked. I had filled my garage with chloropicrin vapors, and had not noticed it because I was wearing my respirator. I only noticed when it started effecting my eyes as I approached the flask. I quickly ran over and stoppered the beast. The garage doors were opened to flush the toxic gas from my house.

That night, I checked on it, and it appeared that nothing was formed. I initially suspected the small amount of PS formed went into solution. I know PS was formed, however, from the odor that escaped the flask when it was unstoppered.

Flash to today, around 47 hours after reaction, I decided to check on the vessel. I was suprised to find an opaque white, dense liquid sitting ominously in the bottom of my flask. Upon seeing the liquid, it gave me the same feeling one would get from going to the bathroom in the middle of the night, then turning on the light to find a rather large spider on the toilet. I stopped in my tracks, startled, then went to inspect it.

There really isn't much to say about it, I am going to see if I can get some more from the reaction. The surrounding liquid now is more of a bright yellow color, opposed to the orange from the beginning of the reaction.

Overall, the TNP route is more time consuming due to the nessesary production of picric. I decided that the NM route would prove better yeilds, but I do not have access to NM at this time. One could cut down drastically by using a higher concentration of hypochlorite, and one needs large amounts of bleach for small batches, and the volume could be a hassle.

Sorry. Another dead topic resurrected.

Now some of you may understand why I was so interested with picric acid

OKay! What the hell? How is CCl3NO2 made from (NO2)3-(C6H2)-(OH) and NaOCl? This one really has me boggled. Where does chloropicrin get its carbon from picric acid? Wouldn't this break the aromatic ring? What's the equation!! There has got to be a multitude of products.

Anyone care to enlighten me?

Thank you kindly.

chloropicrin can be synth otc from chloroform and HNO3 :

CHCl3 + HNO3 --> CCl3NO2 + H2O

and the choloroform can be make from acetone and bleanch

Acidify the nitroacetate solution, distill over a column and you have your nitromethane back.

EDIT: According to Organikum (the book)Nitroacetic acid should decarboxylate when distilled...

That is, if the other components do not interfere.

If it works, you have a way of converting TNP to nitromethane...


[Edited on 12-6-2004 by vulture]

[Edited on 12-6-2004 by vulture]

I find the Sodium Sulfite route of destroying PS (this is the NATO designation for it and proper abbreviation) to be very interesting. Do you know how long this reaction takes or how high the reaction temperature has to be?

I have personally tried the NaOH/Alcohol destruction method and it does not work very well. I had the PS flooded in the decontamination mixture and after several days, there was still the detectable and irritating odor of PS. And on the note of odors, CS definately has that "peppery" odor while PS has that "thick" and "penetrating" and "irritating" odor. However, from my experience, PS causes a more painful reaction that makes you feel like you will pass out; CS's throat and chest pain didn't feeel the same to me (i felt it a while ago...I might test it again to give a more accurate description).

Also, what is this book "Die Chemie der Kampstoffe" (or should it be "Kampfstoffe"?) ? Is that simply "The War Gases" in German? Who is the author? Is it an online e-book for us all to see?

Has anyone tried making iodopicrin, or maybe the fluorine analogue, fluoropicrin should be much more toxic due to the F- ion

Who wants to test smell flouropicrin

Could you perhaps post a direct link to the article you mentioned Bromic, I don't know how to access journals like that from when a name/title is cited

Sorry but I don't have the article, all I found were citations to it

Edit: Searched around and found an abstract of it.

[Edited on 9/7/2004 by BromicAcid]

Trifluoronitromethane seems like it would be an extremely aggressive compound. Wouldn't the three Fluorines would create a hyperactive electrophilic Nitro group?

I'm going to make a conclusion here, based on the assumption that Bromopicrin is NOT as aggressive as Chloropicrin (you may want to check that again--perhaps you just didn't have a high enough concentration in the post-reaction mixture to cause significant irritation?). The greater the electronegativity of the CX3, the more electrophilic and aggressive the NO2 is and thus the NO2 causes the irritation. This would explain why Chloropicrin is significantly more aggressive than Bromopicrin. And continuing this, Trifluoronitromethane ("Fluoropicrin" would be even worse!

My guess would be, cyanogen fluoride=HIGHLY toxic, more so due to the toxicity of the F- ion.

Cyanogen iodide would be perhaps less so than the bromide, but still unpleasant stuff to be around

Such a shame astatine doesnt have a longer half life....

You added the NaOH directly to the Nitromethane? That in itself should have formed Sodium Nitronate, yes... I have no idea what chlorinating such a mixture would give. It seems more sensible to make a hypochlorite mixture w/ NaOH and HCl, and then add Nitromethane to that. In fact, according to the patent, NM is added to the Hypochlorite, not the other way around. Doing that simply change really made my yield a lot better when I did this (or at least made it easier to see/extract).

Another interesting route to Chloropicrin is Nitromethane + Cyanuric Chloride. Adding 1 mole of Cyanuric Chloride per mole of Nitromethane should form Cyanuric Acid + Chloropicrin. The mixture would then be treated with 3 moles Sodium Bicarbonate and poured into a large volume of cool water. The Chloropicrin, not being water soluble, could be easily extracted while the sodium cyanurate solution would be disposed of.

I like this method more than the Hypochlorite method since it involves working with smaller volumes of liquid--making extraction a lot easier. It might lend itself better to making PS from impure (35%) Nitromethane mixtures, too.

Anyone care to try it?

Finally, I found something about the actual smell of chloropicrin, now the thread title has its justification.

WW2 Gas identification posters

Here is the poster for chloropicrin:



Although I never smelled flypaper...

Actually I did two things :

I first bubled Cl2 intro the sodium nitronate (or watchever it is) solution which yield nothing ; no chloropicrine and no insoluble salt or colour change.

I then tried to add another solution of sodium nitronate to hypochlorite solution (12° chlorometric, so 5% not 12%) which gave me the strange crystals.

I didn't tried to filter them ; I'm too scared about chloropicrin toxicity , aren't you ?

I found out today that chloropicrin can also be prepared by the action of bleach on styphnic acid. I used around 40mL of 11% bleach and a 1/4 spatula of styphnic acid. Allowed them to sit for a few min, then added an eyedropper of HCl, then after a few hours a puddle of liquid had collected on the bottom on the testtube around the size of 3 .177 BBs. Smelled kinda like chloroform, but made my eyes sting.

On what Eclectic said...

Chloropicrin has a definite odor. You will catch it on initially inhaling it, just before the pain reaction kicks in. It is very unique and very different from any impurities (as you know, I made it from bleach, which has a Chlorine smell, and Nitromethane, which is odorless).

Going off memory now (although I still remember the smell quite clearly--sorta burned into my nose ): It has that chlorocarbon smell, like Methylene Chloride or Chloroform. Actually, the smell of Bromine in Methylene Chloride reminded me a lot of Chloropicrin; but I've yet to find anything that has quite the same smell. Some perfumes have reminded me of it, though, which I find funny.

But if you want to know how Chloropicrin feels, I can tell you very easily. It's like cutting an onion when it comes to the eyes (not surprising since onions contain a lachrymator). The only thing I can find that made me cough as badly as Chloropicrin was CS (I sprayed myself). It's not a painful cough, but a persistent and intense one--as if there's something stuck in your chest that you can't quite reach with your coughing. There is a definite pain in your whole respiratory system though; it feels like it's [thermal] burning. It really affects your whole body; I know a guy who caught a whiff of it and fainted instantly. I felt weak after I got a whiff of it

As I recall, it's mixed in with Methyl Bromide more for its irritating properties than its smell.

With that said and in retrospect, I'd strongly discourage home chemists from making Chloropicrin. The synthesis is too easy, so you might regard it as some fun for the weekend; but that's treating it too lightly. PS really isn't any more dangerous than a lot of other lab reagents. In fact I don't even know why I'd discourage you from doing it. I'm trying to think of reasons to, but I'm falling short. Most of us are pretty gung-ho with safety; but don't forget those around you or the environment, please.

[Edited on 12-24-05 by Samosa]

I had sucess with the trichlorisocyanuric acid method, Samosa!

I was destilling some modell aircaft fuel, to get some metanol. Later I collected the nitrometan, there were around 20% in it. So I had some nitrometan and no use for it.

Just for interrest I took some trichlorisocyanuric acid (C3N3O3Cl3)and added it to the nitromethane but nothing happened. Now I went inside (took my test tube with the mixture with me) and read this threat. I also read that you have to add a base. So I took my Ca(OH)2 (the single base I have) and added it, the reaction was quite vigorous and the stopper blew out. Now I have to sleep in a tear gassed room.

About the reaction mechanism: I think the OH- ion shifts the equillibium of nitromethan to the "enol" form of it:

CH3NO2 + OH- <===> - CH2-NO2 + H2O

The "enol"-form can act as a nucleophile with the as intermediate formed hypochlorous acid (hypochlorite) The hypochlorous acid forms slowly when the electron deficient clorine leaves as a Cl+ and gets captured immediately by a OH- This may react to hypochlorite or be used up by the "enolised" nithromethan.
The whole reaction:

CH3NO2 + OH- <===> - CH2-NO2 + H2O

- CH2-NO2 + HOCl <===>>> Cl-CH2-NO2 + HO-

C3N3O3Cl3 + 3 Alkali+ + OH- <===> C3N3O3Alkali3 + 3 HOCl

I'm tired now my eyes are tearing a bit, I hope the reaction mechanisms are more or less true, anyone who finds misstakes is wellcome

Quote:

I had sucess with the trichlorisocyanuric acid method, Samosa! I was destilling some modell aircaft fuel, to get some metanol. Later I collected the nitrometan, there were around 20% in it. So I had some nitrometan and no use for it. Just for interrest I took some trichlorisocyanuric acid (C3N3O3Cl3)and added it to the nitromethane but nothing happened. Now I went inside (took my test tube with the mixture with me) and read this threat. I also read that you have to add a base. So I took my Ca(OH)2 (the single base I have) and added it, the reaction was quite vigorous and the stopper blew out. Now I have to sleep in a tear gassed room.

[This will be difficult to convey with text...but I'm too lazy to draw nice mechanisms ]

Here is my proposed mechanism. From other experiences, we've found that reacting Nitromethane with Sodium Hydroxide leads to "Sodium Nitronate." I believe it is this Nitronate ion that reacts via electrophilic addition:

1. CH2=NO2(-) Na(+) + C3N3O3Cl3 --> C3N3O3Cl2-CH2-NO2 + Na(+) + Cl(-)
This results in charge cancellation and the nitronate ion forming a complex with Trichloroisocyanuric acid--shall we call it "Nitromethyl Dichlorisocyanurate." Dichloroisocyanurate looks like a spectacular leaving group and Cl- a great nucleophile; thus I see an Sn2 reaction occurring on the Methylene.

2. C3N3O3Cl2-CH2-NO2 + Cl(-) ---> CH2Cl-NO2 + C3N3O3Cl2(-)

These two steps repeat twice more, leaving the two products: Chloropicrin and Sodium Isocyanurate (since we used NaOH).

This is just my hypothesis. I say this because Hinz said that no reaction occurred between the Nitromethane and Trichloroisocyanuric Acid until a base was added, which is why I believe it is the Nitronate ion that reacts.

[Edited on 5-29-06 by Samosa]

For those wondering how it feels to be gassed by Chloropicrin: It's almost like being punched in the face and having the wind knocked out of you simultaneously.

It's not just a lachrymator; its effects are truly incapacitating (temporarily). It makes your muscles feel weak, so it becomes hard to get up or walk. Doing what our friend Quantum did (and what I have done) will basically lead to you fainting (not necessarily losing consciousness, but collapsing and hacking/choking until your face is blue).

Keep it safe, and trust that it is, indeed, an incapacitant. Keep self-testing to a minimum