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Author: Subject: Borohydride synth?
benzylchloride1
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[*] posted on 31-7-2010 at 21:35


The procedure for synthesizing sodium hydride from sodium metal can be found in Inorganic Syntheses Collective Volume V on pages 6-13. The procedure details the production of an extremely fine dispersion of sodium metal and the subsequent reaction with hydrogen between 220 C -280 C at atmospheric pressure in standard laboratory glassware. This could be of use if sodium metal is available since sodium hydride can be reacted with methyl borate to form sodium borohydride.



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[*] posted on 1-8-2010 at 14:40


Actually at STP (or anywhere near it) the only product found by Schlesinger/Brown was Sodium Trimethoxyborohydride, the reaction of that in THF with Diborane is pure sodium borohydride though. At high temperature and pressure, NaH does react to form "some" borohydride. I'm waiting on the reference, but that is what the first page says.

The file attached "isn't" the one I was thinking of, but it does show the use of solvent for the preparation of Lithium Borohydride, Sodium Trimethoxyborohydride and from THAT in solvent with diborane, one can achieve Sodium Borohydride.

[Edited on 2-8-2010 by un0me2]

Attachment: Brown.Tierney.The.Reaction.of.Lewis.Acids.of.Boron.with.Sodium.Hydride.and.Borohydride.pdf (947kB)
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[*] posted on 3-8-2010 at 23:57


Here is me looking at triethylborane and looking to see what is the minimum level of oxygen with which it reacts, only to find these articles (here, here & here) in which they researched the radical reactions of triethylborane-air @ 20C. Fair enough, they did only open the things up after the reaction had started (and everything was in solution), but that would have took balls, BIG BALLS:o - they also cite this paper where 600mL was good for 16 restarts/afterburner lighting on the SR-71 Blackbirds Combined Operation Turbojet/Ramjet-type engines.

Radical reactions? What like people running like fuck when they realise what the clown in the next booth is going to do?;)



[Edited on 4-8-2010 by un0me2]




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thumbup.gif posted on 4-8-2010 at 13:11


Quote: Originally posted by benzylchloride1  
The procedure for synthesizing sodium hydride from sodium metal can be found in Inorganic Syntheses Collective Volume V on pages 6-13. The procedure details the production of an extremely fine dispersion of sodium metal and the subsequent reaction with hydrogen between 220 C -280 C at atmospheric pressure in standard laboratory glassware. This could be of use if sodium metal is available since sodium hydride can be reacted with methyl borate to form sodium borohydride.

here you go:

http://img231.imageshack.us/img231/6498/sodium1.jpg
http://img571.imageshack.us/img571/8318/sodium2.png
http://img155.imageshack.us/img155/3707/sodium3.jpg

http://img641.imageshack.us/img641/7985/nah1.jpg
http://img375.imageshack.us/img375/3885/nah2.jpg
http://img641.imageshack.us/img641/5019/nah3t.jpg
http://img52.imageshack.us/img52/2431/nah4.png
http://img8.imageshack.us/img8/30/nah5.jpg

[Edited on 4-8-2010 by Chainhit222]




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[*] posted on 4-8-2010 at 18:51


It is probably easier for all if you just print it - use PrimoPDF as a printer, then just print the pages - to get the effect you see in the attached PDF's, one is the same preparation of Sodium Dispersions and the other the preparation of Lithium Hydride (in a glass tube with a Mecker burner @500C).

Now I'm wondering, has anyone seen the preparation of LiH in dispersion? I know I've seen papers on making Lithium Sand in order to make Alkyllithium reagents, much the same as the sodium dispersion is made. So it strikes me that it should be possible to prepare LiH in much the same way as is done with the sodium dispersion... Albeit at a higher temperature maybe, but surely it would react?

Attachment: Inorganic.Syntheses.Vol.5.pp.6.10.Sodium.Dispersions.and.Sodium.Hydride.pdf (274kB)
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Attachment: Vorobyova.Practical.Inorganic.Chemistry.1987.pp.184.5.Preparation.of.Lithium.Hydride.pdf (93kB)
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[*] posted on 4-8-2010 at 19:15


Quote: Originally posted by un0me2  
It is probably easier for all if you just print it - use PrimoPDF as a printer, then just print the pages - to get the effect you see in the attached PDF's, one is the same preparation of Sodium Dispersions and the other the preparation of Lithium Hydride (in a glass tube with a Mecker burner @500C).

Now I'm wondering, has anyone seen the preparation of LiH in dispersion? I know I've seen papers on making Lithium Sand in order to make Alkyllithium reagents, much the same as the sodium dispersion is made. So it strikes me that it should be possible to prepare LiH in much the same way as is done with the sodium dispersion... Albeit at a higher temperature maybe, but surely it would react?

I bet you that it will work just for for LiH. You can use the hydrogen test described in the NaH procedure to see if its working (compare two bubblers, if output is bubbling slower then input then it will be turning into LiH)

[Edited on 5-8-2010 by Chainhit222]




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[*] posted on 4-8-2010 at 20:15


Well the alternative is always the preparation then the thermal degradation of alkyl (ethyl) lithium to ethylene and LiH, which is about as short a route (wasteful though - 50% loss off the bat) as probably exists. Although doing so directly from ethyllithium, as in the attached paper (cited many, many places (such as here & having been reported by Schlesinger & Brown, I'll take them at their word - it ain't some dodgy patent).

The second paper (attached) catalytic degradation of Ethyllithium into LiH + ethylene (good only if you are mad enough to still want triethylborane and/or super hydride after reading the other paper).


[Edited on 5-8-2010 by un0me2]

Attachment: Schlesinger.Brown.Metallo.Borohydrides.III.Lithium.Borohydride.pdf (181kB)
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Attachment: Zgonnik.etal.Reactions.of.Organometallic.Compounds.with.HeavyMetal.Salts.4.Reaction.of.Ethyllithium.with.Titanium.Trichl (108kB)
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[*] posted on 17-2-2011 at 07:04
sodium borohydride from common reagents



CH4 + NaBO2 Heat -> NaBH4 + CO2

Sodium metaborate (borax can be used) is strongly heated in an atmosphere of methane (in home natural gas is 97% methane) which produces sodium borohydride and carbon dioxide. The suggested reaction temperature is 900C. I'm thinking I'll use a stainless steel vessel with an inlet tube extending to just above the borax melt. As the sodium borohydride is formed it will boil and I should be able to condense it with a coldfinger. The vessel will have a an exit port at the top for purging unreacted natural gas which will sweep away the CO2. The reaction vessel will look something like this:



I have searched the forum and do not see any other chatter about the aforementioned reaction. Has anyone here attempted this synthesis? If anyone has any details, references, or comments about this reaction I'd love to read them. Here's what I could dig up with patent searches and google.

Attachment: methane.borax.to.sodium.borohydride.us7019105.pdf (184kB)
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Attachment: methane.borax.to.sodium.borohydride.us7294323.pdf (72kB)
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Attachment: millennium.cell.inc.review.chemical.processes.pdf (404kB)
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Attachment: us.dept.of.energy.fuels.of.the.future.for.cars.and.trucks.pdf (502kB)
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[*] posted on 2-2-2013 at 21:09


Quote: Originally posted by slinky  

CH4 + NaBO2 Heat -> NaBH4 + CO2

I've skimmed the third document before. Look at it again. The ΔG using methane is too positive for this reaction to proceed "at any reasonable temperature."

If you can't get borohydride, use reductive hydrogenation. Often the point of using metal hydrides is convenience, so it's pretty ridiculous to try to make them. Anyway, metal hydrides are impractical for industry and the chemical-lacking chemist alike.

[Edited on 3-2-2013 by wireshark]
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[*] posted on 2-2-2013 at 21:26


Quote: Originally posted by wireshark  
Anyway, metal hydrides are impractical for industry....


Not all industry. The pulp bleaching industry uses NaBH4, probably by the ton. See Wiki. Also see the very informative publication by Rohm & Haas linked in the Wiki article references.

Forum member ordenblitz thought he had stumbled on a facile method for the home chemist but he dropped his research. I tried to pick up where he left off but also had no success.

[Edited on 3-2-2013 by Magpie]




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[*] posted on 3-2-2013 at 06:51


Quote: Originally posted by wireshark  
I've skimmed the third document before.


And I did it just now, as it's one of few non-patent google hits mentioning the MgB2 -> KBH4 process of JACS 78, 4176 (1956) and any patents they wrote. People here are clearly on to this but I couldn't find any actual mention of the little article...http://pubs.acs.org/doi/abs/10.1021/ja01597a093

"A 13% conversion of boron to borohydride was obtained, as determined by the amount of hydrogen evolved upon acidification of the solution."




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[*] posted on 4-2-2013 at 13:45


Quote: Originally posted by S.C. Wack  
Quote: Originally posted by wireshark  
I've skimmed the third document before.


And I did it just now, as it's one of few non-patent google hits mentioning the MgB2 -> KBH4 process of JACS 78, 4176 (1956) and any patents they wrote. People here are clearly on to this but I couldn't find any actual mention of the little article...http://pubs.acs.org/doi/abs/10.1021/ja01597a093

"A 13% conversion of boron to borohydride was obtained, as determined by the amount of hydrogen evolved upon acidification of the solution."


13% sounds very good if this method really works, looks pretty easy, almost too easy, in fact.
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[*] posted on 18-4-2016 at 22:03


Has anyone tried MgH2 + NaBO2 yet? and do the reagents need to be anhydrous?
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[*] posted on 24-4-2016 at 15:17


Sure, this has been done, but probably not by anyone here. And, yes....the reagents would have to be completely anhydrous.

Also do-able with CaH2, which was formerly an inexpensive and easy get. MgH2 works better though,

Check via the search engine. There is a lot of information on this topic.

[Edited on 24-4-2016 by zed]
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[*] posted on 12-6-2016 at 12:50


Quote: Originally posted by Orenousername  
Has anyone tried MgH2 + NaBO2 yet? and do the reagents need to be anhydrous?


I would assume they need to be anhydrous, since NaBH4 reacts with water. I would try this, but MgH2 seems like a total pain in the ass to work with, as you'd need to run the hydrogenation (as well as the MgH2 synthesis) under an inert, anhydrous atmosphere, and you have to some sort of milling setup and a very fine magnesium powder in order to get a reasonable yield, since H2 gas can barely diffuse through MgH2 IIRC.




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[*] posted on 12-6-2016 at 18:14


I don't think anyone has successfully produced the hydrides. Everyone focuses on what you do after you get the hydride because nobody can figure out how to make one lol.

It's known that magnesium in napthalene containing catalytic -- [TiCl4 or TiBr4] EDIT: CrCl3 works which is WAY better -- can be hydrogenated at 20 C at normal pressure.

http://onlinelibrary.wiley.com/doi/10.1002/anie.198008181/fu...

I think this is probably going to be the type of procedure that eventually succeeds. The ball milling procedure mentioned on page 1 is touchy and requires activated magnesium in a perfectly dry atmosphere. TiCl4/naphthalene acts as a powerful in situ dehydrating system to get the reaction going that's just more practical... it's possible that the requisite catalyst loading is small.

Bromine is dangerous, but the reaction of a tiny amount of bromine with titanium can't be too bad, right? :p

The trimethoxyaluminum hydride ion can then be made (I think) by reaction of a metal hydride with Al(OMe)3. The latter is made by simply reacting activated aluminum with methanol, i.e. Al + 3 MeOH + cat HgCl2 >> Al(OMe)3 + 3/2 H2. Magnesium trimethoxyaluminum hydride is the presumptive reaction product of MgH2 + Al(OMe)3.

https://en.wikipedia.org/wiki/Reductions_with_metal_alkoxyal...

EDIT: Actual paper attached. CrCl3 instead of TiCl4 is a *big* improvement. EDIT2: FeCl2 is even better.

Attachment: 10.1002@anie.198008181.pdf (246kB)
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[Edited on 13-6-2016 by clearly_not_atara]
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[*] posted on 13-6-2016 at 13:47



"Bromine is dangerous, but the reaction of a tiny amount of bromine with titanium can't be too bad, right? :p"

Bromine is dangerous, but we used to routinely use it in lower level chemistry courses. I can remember a classmate getting bromine all over his fingers. He got it off right away, and as I recall, there were no serious consequences.

I might be concerned about Bromine reacting with Titanium. Titanium is pretty non-reactive, but once it decides to react, it might not be easy to put the brakes on.
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[*] posted on 13-6-2016 at 14:23


The article also mentions that FeCl2 can be used as a catalyst. Assuming this is correct (and doesn't actually refer to FeCl3), anhydrous FeCl2 can be produced using methanolic HCl with vacuum drying:

https://en.wikipedia.org/wiki/Iron(II)_chloride#Laboratory_preparation

This is probably the easiest way to make one of the transition-metal catalysts. I don't think it was a typo, either -- FeCl3 seems too oxidizing to be used in the preparation of a hydride.

NB: the produced MgH2 is pyrophoric!

[Edited on 13-6-2016 by clearly_not_atara]
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[*] posted on 13-6-2016 at 16:21


For anyone interested, here is the article referenced by the wiki page :


Attachment: FerrousHalides.pdf (37kB)
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[*] posted on 4-12-2017 at 19:33


Found this and thought I'd drop it here............


"Nanocrystalline magnesium for hydrogen storage"

https://doi.org/10.1016/S0925-8388(99)00073-0


Abstract

The hydrogen storage properties of MgH2 are significantly enhanced by a proper engineering of the microstructure and surface. Magnesium powders are produced in a nanocrystalline form, which gives remarkable improvement of absorption/desorption kinetics. Ball milling, which is used for fabrication of nanocrystalline magnesium, improves both the morphology of the powders and the surface activity for hydrogenation. The hydriding properties are further enhanced by catalysis through nano-particles of Pd located on magnesium surface. Nanocrystalline magnesium with such a catalyst exhibits an outstanding hydrogenation performance: very fast kinetics, operation at lower temperatures than conventional magnesium and no need for activation.


And still using the ball mill............


"Preparation of sodium borohydride by the reaction of MgH2 with dehydrated borax through ball milling at room temperature"

https://doi.org/10.1016/S0925-8388(02)00872-1


Abstract

A convenient method was developed to synthesize NaBH4 by the reaction of MgH2 with Na2B4O7 through ball milling at room temperature. In order to improve the sodium borohydride yield, Na compounds were added to compensate the Na insufficiency in reactants when MgH2 instead of NaH was used as the reducing agent. It was found that Na2CO3 addition was better than NaOH or Na2O2 addition in increasing the borohydride yield.




/CJ

[EDIT] - Attachment
[EDIT2] - Attachment2
[Edited on 5-12-2017 by Corrosive Joeseph]

Attachment: li2003.pdf (551kB)
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[Edited on 5-12-2017 by Corrosive Joeseph]

Attachment: zaluska1999.pdf (630kB)
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[*] posted on 9-11-2023 at 10:35


Quote: Originally posted by S.C. Wack  
Quote: Originally posted by wireshark  
I've skimmed the third document before.


And I did it just now, as it's one of few non-patent google hits mentioning the MgB2 -> KBH4 process of JACS 78, 4176 (1956) and any patents they wrote. People here are clearly on to this but I couldn't find any actual mention of the little article...http://pubs.acs.org/doi/abs/10.1021/ja01597a093

"A 13% conversion of boron to borohydride was obtained, as determined by the amount of hydrogen evolved upon acidification of the solution."

We should contextualize this. I believe the balanced reaction should be:

4 KOH + 2 MgB2 >> 2 MgO + KBO2 + KBH4 + 2 B

So the ideal yield is only 25% and 13% molar yield is 52% of theory.

The remaining boron can be recovered and reused quite feasibly if the solution is acidified since we should see precipitation of boric acid and of course elemental B is not soluble.

The last question is how to optimize the reaction:

Mg + B + B2O3 >> MgO + MgB2

to obtain a reaction which is self-sustaining but not too exothermic and makes good use of the Mg. I suspect that the product mixture can be separated by using cold aqueous acetic acid solution to dissolve MgO without much decomposition of MgB2.

[Edited on 9-11-2023 by clearly_not_atara]




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