Sciencemadness Discussion Board

Picric acid from Paracetamol

rot - 9-4-2006 at 00:51

When Picric Acid is made from Aspirin (Acetylsalicylic Acid), the Sulfuric Acid in the nitration mixture breaks it down into Salicylic Acid and Acetic Acid, and then into Phenol and Carbon Dioxide, This is then nitrated. When ASA can be broken down into Phenol, is this also possible with Paracetamol? They're similar compounds, both are phenol derivatives. The reason is that for me Paracetamol is much cheaper then ASA based aspirin tablets.

hinz - 9-4-2006 at 01:32

It should be possible, the nitrogen atom will get protonated by H2SO4, this will cause the bond break between the aromatic ring and the N-atom. The intermediate will be phenol and acetamide. Now the phenol can be sulphonated and then be nitrated, like in the classic picric acid synthesis.

I estimate the reaction to be like this:

.............................................H2SO4.........................+
HO-C6H4-NH-CO-CH3 <======>HO-C6H4-NH2-CO-CH3 <=>HO-C6H5 + NH2-CO-CH3

The dose in each tablet is 500-1000mg, the same as in Aspirin:)


[Edited on 9-4-2006 by hinz]

rot - 9-4-2006 at 03:06

This sounds very logic indeed...
The chemical name for Paracetamol is Acetamidophenol.
But when you add Nitric Acid (Or a nitrate salt for that matter),
won't the acetamide get nitrated as well and/or screw up the reaction?
/EDIT: I just did a little test:
I put one 500mg paracetamol tablet in 10mL hot ethanol, filtered it and let the ethanol evaporate. Added those crystalls to 4mL 70C Sulfuric Acid 96%, and added 1g Ammonium Nitrate in small portions keeping the temperature at 65C. The liquid got red and foamed up just like with Acetylsalicylic Acid, But unfortunately I got a runaway when dumping into water:mad:, But the principle is proved, now lets scale up and gimme some quantities!

[Edited on 9-4-2006 by rot]

Sergei_Eisenstein - 9-4-2006 at 05:28

Isn't the hydrolysis of an acetanilidine supposed to yield the corresponding aniline? As far as I know, hydrolysis of paracetamol will result in p-aminophenol, not phenol. You can remove the amino functional group by a Sandmeyer reaction though.

hinz - 9-4-2006 at 07:03

You're right Sergei_Eisenstein, the HN-CO-R group can't be protonated, since the electrons are delocalised over the carbonyl group:

..........................................+...........-
R-HN-C=O-R <===> R-HN=C-O-R

The same happens also at the acetyl-group, but the N-Atom is easier polarised than the O-atom, so I wonder why it works with Aspirin.

........................................+........-
R-O-C=O-R <===> R-O=C-O-R

If you have P.Sykes book:"A Guidebook to Mechanism in Organic Chemistry"(6Ed), watch at page 155. There I found this infomation.


[Edited on 9-4-2006 by hinz]

rot - 10-4-2006 at 05:33

I just found the following:

Quote:

The starting material for the commercial manufacture of paracetamol is phenol, which is nitrated to give a mixture of the ortho and para-nitrotoluene. The o-isomer is removed by steam distillation, and the p-nitro group reduced to a p-amino group. This is then acetylated to give paracetamol.


If the starting material is phenol, it should be possible to obtain phenol from paracetamol.

[Edited on 10-4-2006 by rot]

PHILOU Zrealone - 11-4-2006 at 10:09

Quote:
Originally posted by rot
I just found the following:

Quote:

The starting material for the commercial manufacture of paracetamol is phenol, which is nitrated to give a mixture of the ortho and para-nitrotoluene. The o-isomer is removed by steam distillation, and the p-nitro group reduced to a p-amino group. This is then acetylated to give paracetamol.


If the starting material is phenol, it should be possible to obtain phenol from paracetamol.

[Edited on 10-4-2006 by rot]

:mad::mad::mad:
So you start from phenol and by nitration you get nitrotoluens....spontaneous generation ex nihilo of a CH3- group in place of the OH...please think twice about what you expect to write before you post.

Also amides in acidic media will of course hydrolise except in very concentrated acids where it will form a salt.

With HO-C6H5-NH-CO-CH3 under conc HNO3/H2SO4 one might expect nitramide fomation, then fast deacetylation and reorganisation of the nitro group in ortho of the amino group then furter nitration of the ring and oxydation of the p-hydroxynitroanilin into nitroquinon ...The later might nitrate and oxydise further into polynitroquinon or to CO2, H2O and NOx.The acetyl moiety is also bad news because it wil oxydise. The general reaction is thus very promt to runnaway because of the great tendency of complete oxydation...
;):P:D:cool::)

chemoleo - 11-4-2006 at 10:51

Maybe one thing to try is to sulfonate the paracetamol first, with 96% sulphuric acid, and then to isolate the intermediate sulfonic acid products. Maybe you get rid of the acetyl moiety that way, too. Then nitrate the resultant product, similar to a procedure with picric acid.

hinz - 11-4-2006 at 13:26

I'm think that amides can't be protonated, since they can be used as a protection group in aniline.

Because aniline + some acid <==>protonated, inactivated aniline (phenyl-ring is positive charged, so no electrophilic attack is possible)

...............................H+..................+............+
C6H5-NH2 <=======> C6H5-NH3 <=> C6H5=NH2

And since R-NH-CO-CH3 can't be protonated, you add some acetyl chloride to the aniline and get phenylacetamide, et voila aniline can be attacked with an electrophile in acid media, because the acetamide group isn't protonated ay more=> no mesomeric positive charge on Phenyl group=>electros availabe for the electrophile.

Since Sykes wrote that the o/p nitration is possible with phenylacetamide, I assume the media is very acidic......
But maybe Sykes wrote bullshit or we're wrong.......

Attachment: Sykes p.155 (protonation of the acetamide group).doc (166kB)
This file has been downloaded 873 times


chemoleo - 11-4-2006 at 13:50

So the ortho or para positions are attacked, in the presence of an activating group. Thing is, there are TWO activating groups, both in para positions.... so are all the respective ortho positions attacked? Probably not, because once an ortho position is nitrated, the corresponding meta-position will be disfavoured to nitration. Thus you should get a mixture of both 2,6 and 3,5 dinitro paracetamols, counted from the OH group.
I wonder if there's an easy way to remove the acetyl from the NH2 group....

garage chemist - 11-4-2006 at 13:55

Para- Aminophenol from alkaline hydrolysis of paracetamol would be an interesting substance in itself, much more interesting than TNP, which you most likely cant make from paracetamol, no matter if you sulfonate it first or not.

How would one go about isolating p- aminophenol from the reaction mix (purified paracetamol boiled with NaOH)?
It is an amphoteric substance, so in basic media you have the phenolate, and in acidic media you have the hydrochloride...
Both are very well soluble in water... bad news for extraction.
Maybe the sulfate salt is sparingly soluble in water?
I'm wondering because aniline sulfate has low solubility in cold water, which allows for its easy separation from an aqueous solution in this form.
But the OH group would enhance solubility...

There is most likely a pH range in which neither the OH group nor the NH2 group are deprotonated/protonated, and at which extraction with e.g. ether from the aqueous solution is possible. A phenolic OH group isn't that acidic, H2CO3 is a stronger acid than phenol for example.
What do you think?

Maybe we should make a different thread about obtaining p- aminophenol from paracetamol, if one doesn't already exist.

EDIT: Hydrolysis of paracetamol with NaOH doesn't work... it instantly gets oxidised by aerial oxygen to a quinone, which forms polymers. A deep black solution results from boiling paracetamol with NaOH, from which nothing can be isolated.

[Edited on 11-4-2006 by garage chemist]

The_Davster - 11-4-2006 at 15:01

I tried the hydrolysis of paraacteamol to p-aminophenol once, with the same air oxiation problem as you. I *think* that the hydrochloride seemed more stable in aqueous solution.

garage chemist - 11-4-2006 at 15:19

I got the information off a website... I haven't experimented with paracetamol myself until now.

Maybe some NaBH4 added to the reaction mix can stop this oxidation? It is often used to stabilize solutions that are air sensitive. Though it is such a powerful reducer, iron(II) salts get reduced to the metal by it (tried it myself). Maybe it can even reduce the quinone to p- aminophenol...

rot - 12-4-2006 at 06:45

This all sounds waaaay to complicated for my simple mind to understand:D
I'll just stick to acetylsalicylic acid.

jack-sparrow - 12-4-2006 at 10:09

Maybe a way to get to the phenol from paracetamol would be through :

1) hydrolysis of the acenatilide group with 20% HCl at reflux.

2) Treatment of the 4-aminophenol hydrochloride with sodium nitrite in hypophosphoric acid to yield the phenol through decomposition of the diazonium salt in the mineral acid.

I really dont know if the hydroxyl group might inhibit the reaction but removing an aromatic amine by decomposition of its diazonium salt is a well know process.


By the way, p-aminophenol tends to get heavily colored when heated in its basic form. It is not a measure of its purity though. It can be pure (over 99%)) and colored. Aldrich stuff can be blue-violet colored.

jack-sparrow - 12-4-2006 at 10:14

You can make phenol from ASA by hydrolysing the acetyl group in order to get the salicylic acid. The latter can be decarboxylated at high temperature (over 200 degC) to yield phenol.

You can make salicylic acid by the reaction of sodium phenolate with carbon dioxide at 150 deg C (ref Org Syn) which is known as the Kolbe-Schmitt reaction

PHILOU Zrealone - 13-4-2006 at 08:46

HO-C6H4-NH2 isolation:

Indeed sulfate of anilin is unsoluble there is a chance that with a tiny exces acid the phenol won't help solubilisation.
So the salt will precipitate.

If it does stil solubilise...then aceton will help after neutralisation of the sulfate salt to yield less soluble and extractible compound, HO-C6H4-N=C(CH3)2

To get the phenol one might simply use the hydrochloride add some NaNO2 by tiny portions in the cold. Then add ethanol and water and slowly allow the mix to come to ambiant temperature. N2 evolution will occure.
HO-C6H4-NH2.HCl + NaNO2 --> HO-C6H4-NH2.HNO2 + NaCl
HO-C6H4-NH2.HNO2 --> HO-C6H4-NH-N=O + H2O
HO-C6H4-NH-N=O --> HO-C6H4-N=N-OH
HO-C6H4-N=N-OH -aq-> (-)O-C6H5 + N2 + OH(-)

As a side note the making of O=C(CNO2=CNO2)2C=O
tetranitroquinon involves no HNO3/H2SO4!
But instead are used:
1°)anilin, chlorate, HCl...strong oxydation and halogenation to tetrachloroquinon
2°)then further reaction with NaNO2 to substitute the reactive polyalfahalocetone with the nitrite anion...just like the reaction of chloracetic acid with NaNO2.

So definitely quinon precursor are not to hanlde like comon aromatic compounds but wel like ceton/enol compounds!

:D;):P:cool::)

Rosco Bodine - 14-4-2006 at 22:32

Regarding " paracetamol " , also called acetaminophen ,
( Tylenol is a brand name ) , 4 - Acetamidophenol ,
and 4'- hydroxyacetanilide ( p-hydroxyacetanilide )
Mole Weight 151.17 m.p. 169-172 , CH3CONHC6H4OH
d. 1.293 insoluble cold water , soluble hot water ,
very soluble alcohol ( CRC & Aldrich )

An idea I have is that this might possibly be converted to "hydoxy" sulfanilic acid ( aminophenolsulfonic acid ) by sulfonation with hot concentrated H2SO4 . If so , then the "hydroxy"sulfanilic acid possibly can be diazotized using NaNO2 to form diazophenolsulfonic acid as a precipitate . This precipitate is possibly convertible in high yield to picric acid by heating with ordinary concentrated nitric acid . The mechanism which I think is posible here
is parallel to a process in the patent attached .

See attached file . I posted this before in one of the other picric acid related threads maybe a year ago .

[Edited on 15-4-2006 by Rosco Bodine]

Attachment: GB16371 Picric Acid from Sulfanilic Acid.pdf (138kB)
This file has been downloaded 911 times


PHILOU Zrealone - 18-4-2006 at 07:33

Starting from hydroxysulfanilic acid...you end up with the dihydroxy compound. The later is strongly oxydised to para quinon...

Rosco Bodine - 18-4-2006 at 11:24

Then perhaps omit any sulfonation intermediate ,
and attempt the nitrosation directly .

Possibly dissolve the acetaminophen in dilute HNO3
or dilute HCl and attempt its nitrosation in the cold
by adding NaNO2 to form an insoluble nitrosation product intermediate . Filter that precipitate if one is obtained , and nitrate by adding it in small portions
to hot concentrated nitric acid .

[Edited on 18-4-2006 by Rosco Bodine]

PHILOU Zrealone - 20-4-2006 at 06:55

Rosco,
The problem is not to convert NH2 to a hydroxy group... but rather what to do to get rid of the other hydroxy or to get rid of the NH2 and replace it by a H atom.

Your patent states TNP from anilin or sulfanilic acid thus:
NH2-C6H5 or NH2-C6H4-SO3H --> HO-C6H5 or HO-C6H4-SO3H
The later phenol or phenolsulfonic acid is submitted to mixed acids...to get TNP.

In the present case with parahydroxyaniline one would need to convert the -NH2 to a H atom in a way to get phenol...and this is not easy.

Now a good idea would be to react the free hydroxy with a base and then submit this to an alkyl halide in a way to get an alcohoxy group ...that would preserve the aromatic ring towards oxydation (blocking the phenol-quinon equilibrium).
Then one might get the othe hydroxy group and convert it aswel to an alcohoxy group.

In the case of CH3-X
Final product would be:
paradimethoxybenzene
CH3-O-C6H4-O-CH3

The later might be polynitrated...possibly to the tetranitro compound (CH3-O-)2C6(NO2)4...
:D:cool:;):P:)

[Edited on 20-4-2006 by PHILOU Zrealone]

Rosco Bodine - 20-4-2006 at 07:38

I was thinking of the amino ending up being nitro ,
but if you say it's not going to happen ........
I'll take your word for it . I've never explored the
nitrosation routes on any of these phenol cpds.
for picric acid or resorcinol , haven't even written
down the reactions on this one to see what might happen .

Lately I have been working on hardware ,
building the mother of all benchtop magnetic stirrers :D

Sickman - 20-4-2006 at 21:12

On the subject of OTC medicines as useful precursors
the aminoethanol derivative diphenhydramine hydrochloride which is often sold as a sleep aid may be a useful precursor in the production of Pentryl also known as
2,4,6-trinitrophenylnitraminoethyl nitrate.

rot - 21-4-2006 at 06:27

Sleep aid pills are not OTC available unless you've got permission from a doctor to buy it.

Boomer - 21-4-2006 at 06:35

Yes these are, its not a barbiturate or benzo, those need a precription.

But thinking about how little diphenhydramine they contain compared to 30 x 0,5g ASA for under 2 Euro (even cheaper in GB/US), it might become expensive!

Will dimenhydrinate work as well? IIRC they are related, but I might be wrong.

uchiacon - 11-10-2009 at 23:15

So guys, what was the consensus? Possible or not possible to synthesise picric acid from paracetemol? I got the impression that it wasn't worth it, but considering aspirin in New Zealand is 6 times more expensive that american aspirin, and paracetemol is cheap, then I would be a better alternative for me.

JohnWW - 12-10-2009 at 01:11

Yes, I have noticed that in the last two or three years the price of aspirin tablets (mainly under the brand-name Dispirin) in supermarkets in New Zealand has gone through the roof, in spite of the appreciation of the NZ dollar. At the same time, the other major aspirin brand, Aspro, seems to have disappeared, so the lack of competition may account for the price hikes. The other salicylate-based painkiller-anti-inflammatory tablets available in supermarkets, Ibuprofen and Nurofen, have become cheaper than aspirin, in spite of their active ingredients requiring more process steps than aspirin. Paracetamol seems to have become a bit cheaper here, though, and is now MUCH cheaper than aspirin. So it looks as if New Zealand consumers are being "ripped off" as regards aspirin, in spite of its being fairly easy to manufacture, which means there cannot be any shortage of the stuff driving up the price.

uchiacon - 21-10-2009 at 21:16

Yeah well I tried to track down a supplier of phenol... supposedly there are regurgitations made by the government regarding the sell of phenol... which is absolutely fucking whack because I purchased 15L of 99% sulfuric acid a week ago(which does so much more damange than phenol...) and nobody really cared that a 15yr old was buying it.

The government is also the same reason why aspirin isn't sold in bottles anymore. Supposedly a packet is more childproof, even though a standard packet of aspirin will probably be able to kill you if swallowed at once, as opposed to a bottle of several hundred tablets.

Also, panadol is about 4 times cheaper and several times more deadly(my mum gets really annoyed when about wusses trying to suicide on panadol come into the hospital and expect to be saved)
The cheapest aspirin I found was signature range, coming in at $4.30 for 15g of acetylsalicylic acid. 50 tablets of 300mg. I'm not proud about this, but I did swap a full aspirin container for a full one I'd bought(which I had emptied) and walked out of the store.

So whats the consensus? I would say that aspirin is an impractical way to make TNP in New Zealand(methyl salicylate is another alternative that is about 1/2 price in equivelent), that the government is trying, and failing, to protect us from ourselves, and that phenol might be also out of the question, once again due to the government.

If there is anyone in NZ with a more ecomical method, could you please give a hint to what it is. Just as long as its here I suppose I'll just keep searching. DDNP is a much safer alternative to HMTD...

[Edited on 04-07-09 by uchiacon]

JohnWW - 22-10-2009 at 01:38

As regards bulk technical-grade or reagent-grade chemicals, you should firstly try large hardware/building supplies stores like Mitre 10 and Bunnings, and stock and station/farm supplies stores like RD1 or CRT or Wrightsons. For small quantities (smaller than what a speciality chemicals firm like Hexion, Kempthorne Prosser, or Smith Biolab would sell), you could try local pharmacies, although their unit prices would be higher. Supermarkets have some less potentially harmful chemicals, like hypochlorite bleach, caustic soda, sodium carbonate and bicarbonate, tartaric and citric acids, methylated spirits, and dilute acetic acid.

Pharmacies would certainly have methyl salicylate (oil of wintergreen), which is applied topically as an anti-inflammatory and painkiller, and used together with pine and eucalyptus and peppermint oils in inhalants.

As for phenol, it is possible that a pharmacy may sell small quantities of it. It is used as the disinfectant in "carbolic acid" soaps, so you could also try any soap manufacturers to see if they could let you have some. Otherwise, you will just have to get a Hazmat hazardous materials handling certificate (I think the Labor Department issues them), and then get back to Hexion and any other firms which insist on it. Now that you have raised the matter, I think I will inquire myself about getting such a license.

A possible crude alternative to phenol, for making technical-grade explosives, may be creosote, which is a mixture of mostly o, m, and p-cresols (methyl phenols), together with small amounts of other substituted phenols such as isomeric xylols and ethyl phenols and methoxyphenols, derived from the anaerobic pyrolysis of wood or lignite. The stuff would undergo nitration to a mixture of many different substituted nitro-phenols, which would be just about impossible to separate. However, I think the stuff may come adulterated with methanol and/or water, so you would have to find out about the composition of any creosote you find; distillation off of any water and methanol in it may be necessary.

[Edited on 23-10-09 by JohnWW]

uchiacon - 23-10-2009 at 03:13

John, I don't think hardware stores are going to sell any interesting chemicals, and I only found a handful of pharmacies that do methyl salicylate(all around $17 for 100ml) and one that might do phenol in 100ml solution of unknown concentration.

These places just don't do anything anymore. Kempthorne prosser closed down about 70 years ago by the way, Hexion wont sell to the public, and smith biolab refuses to sell anything to anybody but the universities and schools. What chemicals you want in NZ you obtain from industry sources, and lab suppliers are out of the question. Same goes for universities and schools.

They've just about killed all possible chemistry interest out of school... and this crap about drugs; where there is money to be made there is always ways to get around any regulation to stop it. Are we ever going to see the same calibre of scientist that we used to see?

[Edited on 04-07-09 by uchiacon]

[Edited on 04-07-09 by uchiacon]

un0me2 - 1-7-2010 at 19:30

Here is a procedure where Sodium Nitrite and HCl are added to an Aq. Solution of acetaminophen, to give (N-acetyl)-4-hydroxy-3-nitroaniline. Now we know that the acetic acid on the amine can be removed rather simply - can we oxidize that to a nitro group?

If so, we'd have 2 of the 3 nitro groups necessary for picric acid, otherwise can we place a nitro-group on that amine using a Sandmeyer Rxn with Copper Nitrate?

The other alternative is to utilize excess sodium nitrite in the initial reaction to get the dinitrated acetminophen (at a guess, I'm not sure it would work, but I cannot see why not, to give (N-acetyl)-4-hydroxy-3,5-dinitroaniline), which would have all the N groups in the right place and then hydrolysis & oxidation to the trinitro compound (http://en.wikipedia.org/wiki/Aniline#Oxidation), permanganate is supposed to work so too monopersulfuric acid.

[Edited on 2-7-2010 by un0me2]