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Jor
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[*] posted on 6-3-2008 at 15:09
bromine


Hello,

Im thinking about buying some bromine.
Im cuite worried about the stories , that i is almost impossible to keep this beast of a chemical inside. It will eat through anything. So I was thinking , Let buy it from Merck, because I cant imagine Merck packs it wrong? Or is it really that nasty, that it will go through anything (I would expect Merck to put in TEFLON)? Have you guys had experience with this?
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[*] posted on 6-3-2008 at 15:24


Glass is completely impervious to bromine, as are passivated metals under normal conditions (as long as the bromine is dry) like nickel or monel, chrome, titanium, etc. The difficulty in containing it is due only to its volatility. It will slowly diffuse through all but the densest grades of teflon and other plastics due to their porosity. Just keep it in a glass bottle with a ground glass stopper and some fluorosilicone grease or teflon tape to help make the seal. Refrigeration helps keep the volatility down but beware that even when a small amount leaks out the fridge will smell like bromine forever.

I'm pretty sure there is at least one thread on this site regarding ampouling bromine, which may be your best bet if you just want to keep a small amount. If you aren't using it any time soon you may as well just keep it in a salt form from such as ammonium bromide or alkali bromide, and extract it when you need it. It's MUCH easier and cheaper to buy that way too. It isn't any harder to isolate than chlorine or iodine.

The real moral of the story is that if you don't know how to store or handle it properly you probably shouldn't be using it.




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[*] posted on 6-3-2008 at 15:33


I bought some Bromine from Aldrich, and it came in a sealed tin- can in a glass bottle with a teflon- lined cap. I store it in an airtight space, and everytime I open the door, small amounts of Bromine smell seeps out.
Although it doesn't pose a risk of inhalation, it does smell up the place.




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MagicJigPipe
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[*] posted on 6-3-2008 at 20:16


"It isn't any harder to isolate than chlorine or iodine. "

I beg to differ. Aside from fluorine and astatine, bromine is the hardest halogen to isolate. Mostly because it's a liquid.

IMO it is in this order from easiest to hardest to isolate:

Iodine
Chlorine
Bromine
Fluorine
Astatine

I've never messed with fluorine or astatine but at least fluorine can be obtained via electrolysis. I'm sure astatine would be easier to isolate but it's virtually unatainable.




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[*] posted on 6-3-2008 at 20:45


My point is that it isn't that difficult, and especially not difficult enough to make it worth purchasing in elemental form when its salts are so readily available. Electrolysis in a separatory funnel followed by distillation of the liquid that sinks out works. IMO electrolysis in a membrane cell or amalgam cell followed by purification is the easiest way to isolate any halogen (except fluorine which requires a special cell at low temperature); even the popular chemical methods of iodine extraction are finicky and leave much to be desired.



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[*] posted on 6-3-2008 at 21:09


The volatility is a function of temperature. Refrigerate the Br2 and it is tame as a kitten. Even if you don't refrigerate (In which case you will get some diffusion losses) you chould chill the bottle in an ice bath prior to opening.

I have a 100 ml Hamilton glass syringe with PTFE Luer-lok 'needle" for transfer of this sort of thing.




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[*] posted on 6-3-2008 at 23:43


Buying Merck bromine is NOT a guarantee for a good bottle. I read a thread on www.versuchschemie.de about really rotten bromine bottles, which were purchased from Merck. Things were so bad, that after some time, there even appeared crystals in the bromine, and that can only be a big impurity. Bromnine never forms crystals at room temperature.

I have made my bromine from bromate and bromide, using an all glass distillation setup and drying it with conc. H2SO4. I posted a thread about that some time ago, it is here on sciencemadness.

I now have appr. 200 ml of bromine in a glass bottle, with a screw-cap, which has a PTFE liner inside, and teflon tape wrapped around the rim of the bottle. It stores well, but around the cap, I notice a faint smell of Br2. Summer still has to come...




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[*] posted on 7-3-2008 at 02:52


Standard Fluka reagent bottles (the brown ones with the famous blue stoppers) are great for storing bromine and other such nasties. Never noticed any leak and hold a fair amount of internal overpressure. They are also easy to find since for some reason most labs just throw them away.
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[*] posted on 7-3-2008 at 06:33


Quote:
Originally posted by MagicJigPipe


I beg to differ. Aside from fluorine and astatine, bromine is the hardest halogen to isolate. Mostly because it's a liquid.

IMO it is in this order from easiest to hardest to isolate:

Iodine
Chlorine
Bromine
Fluorine
Astatine


actually I beg to differ here, Bromine is Very easy to isolate!
more so than Iodine.
in fact I would go far as to say it`s one of the "Nicer" halogens to isolate and use, and for the Most part it`s very "Well Behaved", although storage for some Can present problems.

a Nice way to do it however is to use the method Woelen has outlined on his site.
I keep a jar with the correct mixture of KBr and KBrO3 as a fine powder.
for Me this is Instant-Bromine-Just-Add-Acid.
from there you can make as Little or as Much as you like at any time and it`s done within a minute or 2.

there`s no storage issues and it will last forever like this, and if I can`t wait the 1-2 minutes for the bromine liquid to form, then I have no business being in the Lab doing Any experiment that will use it anyway! :P


edit: as for Astatine, you wouldn`t want it anyway, it`s radioactive!

[Edited on 7-3-2008 by YT2095]




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[*] posted on 7-3-2008 at 06:41


Yes, I agree with YT2095. If you acidify the 5 : 1 molar mix of KBr and KBrO3 with a suitable amount of 30% H2SO4 (for each mol of KBrO3 use well over 3 mols of H2SO4) , then within a few minutes you have a nice blob of bromine at the bottom, which can be collected using a pipette. In this way, you isolate approximately 75% of the bromine. If you want all bromine, then you need a distillation setup.

I make the following list of ease of separation of the halogens:

1) Br2 and Cl2
2) I2
3) F2

[Edited on 7-3-08 by woelen]




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[*] posted on 7-3-2008 at 06:42


Okay, I suppose I meant decent amounts of pure Br2. That is much more difficult than iodine or any gas. How could it be easier than I2? I consider filtering and washing a solid the simplest of all tasks in the lab.

All I'm saying is the only halogen I have EVER had any problems getting by itself, pure, is Br2. Chlorine is easily seperated from liquid because it's a gas and iodine is easily seperated from a liquid because it's a solid. This makes perfect sense to me.




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[*] posted on 7-3-2008 at 06:48


No, I still do not agree. Iodine is formed as a fine precipitate, which is wet. Separating it from the adhering water is not that easy, although it certainly can be done. Simply heating it in order to get rid of the water is no option, the iodine also evaporates quite a lot. You need to sublime the iodine at least two times in order to het rid of the water. I do not know a highly volatile solvent, which easily rinses off the water and does not dissolve the iodine. Stuff like ether, acetone, alcohol etc. are of no use here.

Bromine, which separates as liquid, is easily pipetted without any water. The bromine, made this way already is quite pure. Solubility of water in bromine is very low (only appr. 0.05% by weight). The biggest problem is not the water, dissolved in the bromine, but the drops of water, which always will stick to your pipette and float on top of the bromine. If you accept another 10% loss of the bromine, then you could make almost perfectly dry bromine simply by pipetting it.

Getting it really dry can be done by pouring concentrated sulphuric acid on the bromine and keeping it that way:



[Edited on 7-3-08 by woelen]




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[*] posted on 7-3-2008 at 06:58


Bromine`s a gas too with a little heat (and I mean a Little!).

what do you need to get a pure Br2 liquid?

1) make it as outlined above
2) either turn it to a gas and treat like Cl2 OR...
3) pipette it out into a test tube and add conc sulphuric.

it really gives you the best of Both worlds, as the gas is Clearly visible as is the liquid.

Fl2 would be the last on the list, and I would agree with, and you may as well forget At2, think Beta decay of Polonium!

anyway, we`re going Slightly off topic here, I strongly recommend the method Woelen and I employ (and probably a good many others here too), if it aint broken... Don`t fix it!




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[*] posted on 7-3-2008 at 07:32


Quote:
Originally posted by kilowatt
IMO electrolysis in a membrane cell or amalgam cell followed by purification is the easiest way to isolate any halogen (except fluorine which requires a special cell at low temperature); even the popular chemical methods of iodine extraction are finicky and leave much to be desired.


If I electrolyze NaI or KI, I produce iodine, but it immediately complexes with the remaining iodide and goes into solution. How do you isolate it?

I produced Br2 and I2 by chemical oxidation of bromides and iodides, then extracted them in CCl4. (Back in the good old days, when I had a gallon of technical CCl4, and was dumb enough to use it with mediocre ventilation.) This worked well, and the CCl4 solutions were always pretty...
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[*] posted on 7-3-2008 at 07:59


Quote:
Originally posted by woelen
No, I still do not agree. Iodine is formed as a fine precipitate, which is wet. Separating it from the adhering water is not that easy, although it certainly can be done. Simply heating it in order to get rid of the water is no option, the iodine also evaporates quite a lot. You need to sublime the iodine at least two times in order to het rid of the water. I do not know a highly volatile solvent, which easily rinses off the water and does not dissolve the iodine. Stuff like ether, acetone, alcohol etc. are of no use here.

Bromine, which separates as liquid, is easily pipetted without any water. The bromine, made this way already is quite pure. Solubility of water in bromine is very low (only appr. 0.05% by weight). The biggest problem is not the water, dissolved in the bromine, but the drops of water, which always will stick to your pipette and float on top of the bromine. If you accept another 10% loss of the bromine, then you could make almost perfectly dry bromine simply by pipetting it.

Getting it really dry can be done by pouring concentrated sulphuric acid on the bromine and keeping it that way:



[Edited on 7-3-08 by woelen]


exactly, I made some iodine as well from KI, and it was very wet. It not that hard to isolate dry though. Just heat in an erlenmeyer with a watchglass on it, and you will het quite dry iodine on the watchglass.
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[*] posted on 7-3-2008 at 11:35


I still completely disagree. Bromine is a pain in the ass to isolate IMO.

"I produced Br2 and I2 by chemical oxidation of bromides and iodides, then extracted them in CCl4. (Back in the good old days, when I had a gallon of technical CCl4, and was dumb enough to use it with mediocre ventilation.) This worked well, and the CCl4 solutions were always pretty"

If Br2 is so easy to isolate, why would you need something like CCl4? Anyway, with oxidation of iodides, yields are always great. Oxidation of bromides (or electrolysis) that involves any water seems to have low yields. I see you made a small amount of Br2. But how long did that take?

Also, I have never attempted to dry I2 by this method but couldn't you used a dessicator while cooling the I2 to just above 0C? This should prevent excessive sublimation and dry it at the same time.

I always just used dry filter paper. Seems to work well. Probably not dry enough for moisture sensitive applications but still reasonably dry.

I just hate messing with Br2. It mixes with water too easily and once it does it's a pain to remove from the water.




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[*] posted on 7-3-2008 at 11:58


No need to use CCl4. Simply use the method, mentioned above where the Br2 drops out. Easy, simple and effective. Yield of oxidation is 100%, no incomplete oxidation as mentioned by MagicJigPipe. If you have incomplete oxidation, then it is time to find a better oxidizer. Every oxidizer like chlorate, permanganate, hypochlorite, bromate completely oxidizes bromide to bromine in acidic environment. Only thing is that one should be careful using fairly precise stoichiometric amounts. Especially the chlorine-based oxidizers tend to form Cl2 when used in excess and then mixed halogen compounds and bromic acid are formed.



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[*] posted on 7-3-2008 at 12:17


You'll have proof of Br2 being easy to isolate quite soon. There are ample examples already on the forum of how to make bromine, but the most direct is to use bromate, bromide, and an acid (sulfuric or hydrochloric). The reaction is almost quantitative from HBr and and bromate. Distill the bromine, dry with sulfuric in a sep funnel.

I am working on a 10 kilogram synth of bromine, it's already late, but I'm waiting on the rest of my sodium bromate to arrive. I'll probably be doing it in either a 12 or a 22L flask. It will be stored in a large 2L FETFE bottle.

[Edited on 7-3-2008 by Fleaker]




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[*] posted on 7-3-2008 at 12:39


Quote:
Originally posted by MagicJigPipe
If Br2 is so easy to isolate, why would you need something like CCl4? Anyway, with oxidation of iodides, yields are always great. Oxidation of bromides (or electrolysis) that involves any water seems to have low yields. I see you made a small amount of Br2. But how long did that take?

Also, I have never attempted to dry I2 by this method but couldn't you used a dessicator while cooling the I2 to just above 0C? This should prevent excessive sublimation and dry it at the same time.

I always just used dry filter paper. Seems to work well. Probably not dry enough for moisture sensitive applications but still reasonably dry.

I just hate messing with Br2. It mixes with water too easily and once it does it's a pain to remove from the water.


As I recall, Br2 and I2 partitioned into CCl4 from the aqueous I3-/Br3- solution. But this was all thirty-odd years ago, so I may be misremembering critical details.

I had neither distillation apparatus nor dessicators at the time, and I was working with sub-gram quantities anyhow.
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[*] posted on 12-4-2008 at 05:36


I'm not sure if anyone would be interested in this, but I have acquired a 2ml ampoule of bromine which is too large for my periodic table. I was wondering if any members on here (based in UK) would be interested in this for their use and experiments? I have already approached my local university to see if they would like it for their stock, but all they wanted to do with it was store it with their waste and dispose of it!!! If anyone is interested, please let me know.
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[*] posted on 12-4-2008 at 07:34


I`ll take it off your hands if it`s Free (I`ll pay postage), a 2ml would be smaller than my Current element sample.
or even do a trade if you`re after an element that I have enough of to share.




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[*] posted on 12-4-2008 at 16:00


I suppose once I find a cheap source of BrO3 then it will be easy for me as well. 'Till then it remains annoying.



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[*] posted on 12-4-2008 at 17:48


I just oxidize bromide with 30% H2O2, using H2SO4, and the heat produced in enough to distill the bromine into a sep funnel, then I just pour out the bromine. Easy, and very dry product.
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[*] posted on 13-4-2008 at 06:35


So you use a distn setup, but connect a sep funnel instead of a receiver flask?
Do you add the H2O2 to the KBr/NaBr and H2SO4, or H2O2 and H2SO4 to the salt?
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[*] posted on 13-4-2008 at 11:45


Distillation of Br2 is not easy, IMO. How does one obtain NaBrO3 for a decent price? I believe IT is a pain in the ass to synthesize, as well.



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