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Author: Subject: Chlorination of Aniline
Axt
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[*] posted on 15-12-2007 at 14:51
Chlorination of Aniline


I've tried two ways, one by bubbling Cl2 through a solution of aniline in DCM (dried with P2O5) though this only resulted in immediate masses of resinous crap. This method was from journal literature (Am. Chem. J.) I lost the original article. Though I substituted chloroform with DCM, the original text follows:

<i>"The trichloraniline used in this preparation was made by the excellent method of Victor Meyer and Sudborough' as follows : One hundred grams of freshly distilled aniline were dissolved in one kilogram of chloroform, which had been washed to free it from alcohol, and thoroughly dried. The vessel containing this solution was immersed in a bath of ice and water, and dry chlorine passed through the cold liquid, until it was saturated, which occupied from twelve to fifteen hours. It is advisable to introduce the chlorine through a wide tube, as there is danger that a narrow one will be stopped up by precipitated trichloraniline chloride. The precipitate formed by the action of the chlorine was freed from chloroform by means of a filter-pump, dried and washed with water, which removed all the compounds of aniline except the trichloraniline. The yield was good, as 117 grams of trichloraniline were obtained instead of 211 grams, that is 55.4 per cent, of the theoretical amount."</i>

I have no intention of trying that again, toxic rainbow coloured resinous crap is hard to clean. I never dried the red MERK aniline, and the Cl2 derived from TCCA/HCl was dried through a flask of CaCl2. I suspect a small amount of water present is the reason for the dramatic failure.

I'm aware of US2675409 which first converts the aniline to its hydrochloride via reaction with anhydrous HCl before the chlorination. Though again stringent exclusion of water is a must.

For a second try I used H2O2/HCl/AcOH, this seemed to have promise though is a hot reaction and good cooling is needed. Into a well cooled solution of 5.5g aniline in 60ml AcOH and 100ml 32% HCl was added small portions of 50% H2O2. The solution turned yellow to green to blue, after taking it out of the freezer on warming an exotherm resulted which precipitated an olive drab coloured substance. This is too simple for the product to be trichloroaniline, but what is it likely to be? This green compound is also seen in the resinous crap from the previous reaction of aniline + Cl2.

So I ask if anyone has experience chlorinating aniline through convenient means? Also if anyone has information on physical properties onf mono/di/trichloroaniline? especially colour. Also If anyone knows what the reaction of aniline with AcOH/NaOCl yields?

I hate aniline very much.

[Edited on 16-12-2007 by Axt]
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[*] posted on 15-12-2007 at 17:49
Reference Information


Chlorination of Benzidine and Other Aromatic Amines in Aqueous
Environments

R. L. Jenkins, J. E. Haskins, L. G. Carmona, and R. B. Baird
Archives of Environmental Contamination and Toxicology Volume 7, Number 1, pg. 301-315, 1978

Abstract.
The fate of aniline, N,N-dimethylaniline and benzidine in chlori-
nated waters was investigated. Conditions were controlled to approximate
the process chlorination of raw water supplies and wastewater secondary
effluents.
As the molar ratio, (C12)/(amine), was increased, amine depletions
increased and leveled off at about (C12)/(amine) = 1. Depletions in distilled
water with 'free' chlorine were somewhat higher than those in activated
sludge/secondary effluent with combined chlorine. For each amine the num-
ber and type of products appeared to be independent of the water matrix and
the ratio, (Cl2)/(amine).
For the monophenyl amines ring chlorination was a significant depletion
pathway. Extended chlorination of aniline yielded a precipitated product,
while the N-substituted amine, N,N-dimethylaniline did not yield a solid
product. In contrast to the monophenyl amines, when benzidine (p,p'-
diaminobiphenyl) was exposed to chlorinated waters, a solid product resulted
immediately. Infra-red analysis of this product indicated a polymeric struc-
ture with no ring chlorination. GLC analysis of the chlorination supernatant
showed no ring substituted isomers of benzidine.

[Edited on 15-12-2007 by solo]

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[*] posted on 15-12-2007 at 17:59
Reference Information


A Study on the Synthesis of 2,4,6-Trichloroaniline by Chlorination of Aniline
김철웅, 진항교 , 이수복 , 이정민
HWAHAK KONGHAK Vol.28, No.2, 230-236, 1990

Abstract
For the chlorination of aniline salt to synthesize 2,4,6-trichloroaniline in the solvent of chloroform, the reaction mechanism was suggested and the reaction kinetics was examined. The reaction rate constants were esti-mated by using the experimental results obtained in the range of 10-40℃ and the equations of reaction rates, which were derived from the reaction mechanism. The results calculated by applying the reaction constants to the theoretical equations of reaction rates were well agreed with experimental results. The reaction rate of formation of 2,4,6-trichloro-aniline from aniline salt is 9 times greater than that of 2,6-dichloroaniline, and the activation energies of these two reactions are almost same. Thereforem the increase of 2,4,6-trichloroaniline yield cannot be expected by controlling the reaction temperature, and the obtainable maximum yield of 2,4,6-trichloroaniline is about 90%.

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[*] posted on 15-12-2007 at 19:17


Thankyou for those articles.

I just tried again, this time I wanted to see what would happen if I left the P2O5 as a slurry in the solution. Into a solution comprised of 5g aniline in 100ml chlorobenzene was added a spoonfull of P2O5. This was swirled and let stand for 30 min. Chlorine was bubbled in and soon the solution was thick with a mustard coloured precipitate. Its still going as I type.

I found the colour of trichloroaniline <a href="http://physchem.ox.ac.uk/MSDS/TR/2,4,6-trichloroaniline.html">here</a> as being purple fibres! though <a href="http://www.chemyq.com/En/xz/xz1/3378borov.htm">here</a> as being light yellow needles. I presume the purple colour is the result of reaction with light, air or both (god I hate aniline). If someone could check merk index or simular for confirmation that would be great, I only have the 6th edition (1952) in which it is not listed. I would have expected if it were strongly coloured, it would be noted as such in the articles.
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[*] posted on 15-12-2007 at 20:24


That purple color sounds as if it is due to formation of an "aniline dye", rather than trichloroaniline. This happens when aniline (or its derivatives) molecules condense together so as to form aromatic secondary and tertiary amines and sometimes aromatic quaternary ammonium salts, often with N atoms in aromatic rings. This was first found to happen with the discovery of "Perkins' mauve" in 1856, by the attempted oxidation of aniline with dichromate and then methanol extraction.
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[*] posted on 16-12-2007 at 00:54


Chloroanilines are, like all anilines, of all colors since the slightest oxidation byproducts highly color them (well, generally they get darker colors if not completely black).
The slightest presence of H2O during the chlorination of aniline will cause the formation of oxidation products. However, P2O5 is not a particularly good idea to use during the reaction since it reacts with aniline itself.
Axt, you should try the chloroform/Cl2 method again but drying the reaction solution with molecular sieves before introducing Cl2. Also try recrystallizing the crapy product you got by discoloring with active charcoal. I guess you can use ethanol or isopropanol for the recrystallization, but I'm not sure.




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[*] posted on 16-12-2007 at 19:31


I dont have molecular sieves nor activated charcoal. I did try again yesterday, I dried a solution of aniline-chlorobenzene with P2O5, let it settle and decanted. HCl gas was bubbled through which resulted in a thick mud-like suspension. Cl2 was bubbled through at 90 degrees (according to US4447647), the precipitated HCl waslt eventually went into solution after 2 hr. This was then washed with water, HCl, then water again to leave a brown organic layer. Extracting this and evaporating at 80 degrees resulted in a mush of dark near black purple crystals in a viscous liquid. Yield was low, so I'll look at routes around aniline itself.

Since the target was to form 1,3,5-trichloro-2,4-dinitrobenzene, I'll instead look at chlorinating m-nitroaniline which should be more forgiving.. and just as easily produced as aniline.
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[*] posted on 17-12-2007 at 05:01


When Aniline could be chlorinated directly with Cl2,
then could 2,4,6-trichlorophenol also be obtained by chlorination
of Phenol in ice water by bubbling Cl2 through?

I red this some time ago but the author wasn´t sure if it works,
so I didn´t tried it.
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[*] posted on 17-12-2007 at 14:15


Phenol can be chlorinated by Cl2. In water, I'm not sure. Some aromatics that are less reactive require a lewis acid as a catalyst. Phenol shouldn't need it though.

Found this:
http://pubs.acs.org/cgi-bin/abstract.cgi/esthag/2005/39/i13/...

A quote from some 2,6-Dichlorophenol MSDS:
"CHLORINATED PHENOLS CAN BE PRODUCED BY THE CHLORINATION OF PHENOL WITH HYPOCHLORITE IN WATER."

That seems to support the water theory as well. But MSDS is not a great source of information.

BTW, I just by my activated charcoal at Wal-Mart. Is this bad?

P.S. I know those aren't the best references but I'm in a hurry! Hope it helps!

**EDIT**
And here's some surprisingly good info from wikipedia on the reaction mechanism.

http://en.wikipedia.org/wiki/Electrophilic_halogenation

[Edited on 17-12-2007 by MagicJigPipe]




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