Exotic Primaries - Complex Salts

Haven't seen any mention of nitrato/nitrito-metal complexes for energetic complex salts in this thread (or I have overlooked them ). Some would be pretty promissing, like the hexanitritocobaltate(III) ion. The sodium salt is one of the few well soluble salts, while it readily precipitates with K+ or even NH4+...

Forming a salt with methylamine, urea, hexamine, etc could give interesting results, no idea what it's properties, or how stable they would be, as most NO or NO2 ligand metal complexes are not very stable...

Are there even any known nitrito/nitrato complexes that have been reported to have primary explosive properties? I seem to remember this nitrato-Hg(II) aldehyde complex, though it was a rather feeble explosive IIRC...

[Edited on by nitro-genes]

Thanks for posting that article!

Ammonium hexanitrocobaltate(III) goes out the window as it seems concerning it's potential as a primary. Hydrazine hexanitrocobalate still seems pretty spicy though, if it would exist that is...

Most of the used oxidizers seem to stable to accellerate fast enough to behave like a primary, like the perchlorates or nitrates. On the other hand the chlorates are capable of doing so, but are not very storage stable. For that matter would the peroxo chromates Woelen posted about be a good starting point, since it was pretty obvious that it is a very powerfull oxizer, but seemingly stable in storage...

[Edited on by nitro-genes]

nitrite as a ligand

I have 15 grams or so of this compound around for approximately 18 years already . Do you think it is wise to destroy it and not keep it around any longer? I did not know it is impact sensitive too. I'll do some tests myself and see how sensitive it actually is. After all those years of storage, the compound still is very energetic, so this at least is very stable, when stored in a dry and air-tight container.

[Edited on 22-10-07 by woelen]

Nah, it could just be unusually sensitive to thermal anisotropy and vacuum fluctuation.

Tim

Well, except it's going to be too unstable probably ... and OB wise...is there any?
Very nice work above ... do you have pictures of the above compounds?
With your resources, perhaps it's worth testing other transition metals, such as Ni, Cd, Cu etc?
For instance, copper hydrazine, guanidine, imidazole, pyridine, dinitrophenylhydrazine perchlorate, and the nitrates etc etc
We need a comprehensive review of all these things!

Hi!

I must comment the sensitivity of NHN.
I have prepared it many times in about 10-20g batches and it is extremely difficult to filter. After drying and at some point grinding it (do this in small ammounts if it is already dry) it is a very flammable powder that does not seem to detonate easily unless confined.
I have tested friction sensitivity by means of a mortal and pestle. It is very well possible to make it detonate. It is deffinitely much more sensitive than TNT that I think someone compared it with. Anyway I have found it to me much less sensitive than e.g. PbN3. Maybe in the order of ETN or MHN.
I have also stored it for about 2 years at some point and haven't noticed any change. When i tried to make the same salt of Cobalt it was a bit weaker but needed less confinement to detonate in 10g quantities. Anyway it degraded in 2 weeks to something useless (water + something I guess) When burned the H from NH3 and O from -NO3 at least forms H2O, the metal forms an oxide and N2 is also formed.

Sorry for al typos et.c. I'm really in a hurry right now

Somebody asked for structure of NHN, it is attched below. Made in ChemDraw.

is there tetramminecopper(II) picrate?

The Combustion of the Salts of Tetraamine Copper (II).

Interesting stuff, thx 4 the upload!

I wonder if an explosive complex might be obtained by heating Ca(NO3)2 in a steam of dry NH3. Bis-en-copper(II)bromate might also be obtained this way.

I believe there is some kind of water of hydration in TACN and TACP. Both salts dont burn readily even when completely dry. However, when heated carefully in a steam of dry air for some time their blue color shifts towards a deep violet color and these violet salts DO burn/explode readily. In moist air I observed that my putative anhydrous TACP turns deep blue again after a short time. Also I once left a small bottle of TACP in a very hot spot in the sun (not a wise thing I know :cool and droplets of water deposited inside and the salt turned violet. When put in a cold place again the droplets disappeared and the color gradually shifted towards the familiar blue again. Freshly precipated tetammine-Cu-persulphate also forms blue needles. These dont burn very well. After washing with ethanol and heating in a stream of warm air however a violet powder is obtained which explodes from flame and impact readily.

TACN will decompose in open air into green inert junk when its not completely dry so dont try heating it until its carefully washed with anhydrous ethanol.

Btw Bisethylenediamine-copper(II)-perchlorate easily precipates from solution when ethanol is added. Its insoluble in ethanol and thus can be obtained easily in a perfectly dry state. Forms violet needle-shaped crystals and explodes readily from impact however it is slightly hygroscopic.

Slightly off-topic but might be of interest anyways: There is a potassium-chlorate-tartrate double salt which is said to be explosive. I made some of this by mixing stoichiometric hot solutions of potassium chlorate and potassium tartrate. First little cubes started to crystalize which did not show any energetic properties - I suppose this was the tartrate alone. Then plate-like crystals appeared which when ignited with a match burned instantaneously with a little flash. I did not test impact sensitivity tough.

Here's some more double salts you might want to try:

Calcium-acetato-perchlorate: 2/50 mol Ca-acetate are dissolved in 50ccm H2O and 1/50Mol 50% HClO4 is added. The sol is evaporated over H2SO4.

Barium-sodium-acetato-nitrate: 54g Ba-acetate and 34g sodium nitrate are dissolved in 120cc hot H2O and left to evaporate @RT. First Ba(NO3)2 will crystalize; the double salt forms long prisms and explodes upon heating.

Theres also a lead-sodium-acetato-nitrate double salt which should be easy to prepare: 15,2g lead acetate and 3,4g sodium nitrate are disolved in 80ccm H2O and left to evaporate at RT. The double salt forms small leaflets and cannot be recrystallized from water w/o decomposition.

Here's a funny dream I had last night; dunno if it has any connection to reality tough:

I dreamt I found a way to make anhydrous TACN which dets. readily from a hammerblow. The instructions I dreamed up were: Precipate deep-blue/violett crystals of TACN from a conc. solution by addition of equal volume of ethanol. Wash the crystals with ethanol twice, then press dry between filter paper. Wash them two more times with dry acetone. Volume will shrink considerably due to loss of water of crystallization (in my dream I had the impression that just 1/5 of the initial volume was left). Remove acetone by carefully pressing between filter paper. Finally dry in a steam of warm air. At this point, most of the water has been removed and the crystals will no longer decompose on contact with air. Now its ready for the final drying: Put them in a decissator over CaCl2 for a few days.
I dreamt that by following these instructions, I obtained a light blue powder. In my dream I even took a hammer and it went BOOM readily. The hydrated deep-blue/violett crystals never did, plus they turned into green junk within a few days.

If this dream was true, TACN was not useless at all

I just had a couple of drinks , this makes me think better/ more free (which ever one you prefer)
Would it be possible to ppt the persulfate salt of hexamethylenetetramine, or would it be destroyed due to oxidation.

Writing this makes me wonder if there would be other organics which could get persulfate groups attached to them ( excluding TACpersulfate compounds because i know it can be done)
It is a strong oxidizer so a lot of organic molecules would be attacked by it and probably not survive.
but still some products of the oxidation might be capable of getting a persulfate group attached to them.
Iam just speculating, maybe this gives anyone inspiration.


Anyone any ideas, is this going anywhere or I am being naive/drunk .

User



[Edited on 17-4-2009 by User]

[Cu(NH3)4]S2O8 decomposes @RT within a couple of weeks, no matter how well it is dried. You could probably store it for month in a freezer tough. But what for? Its a nice curiosity but of no practical interest. Btw there are various decomposition products which show weak energetic properties as well. Initially the stuff is dark violett but as it decomposes it takes on a much lighter blue color. At this stage it still burns, comparable to ammonium dichromate. It will decomposes further to the point where it can be hardly ignited anymore. A funny thing happens when you smack this mostly decomposed complex: It turns green where you hit it. Its quite fascinating to see a stuff change color from impact.

Also if you put the dry crystals in a glass dish and gently warm in air, they start jumping around like fleas. Probably due to the crystal structure being broken as it decomposes.

Theres also the zinc persulphate which is said to be explosive.
This might be an interesting target. Copper doesnt seem to be terribly compatible with O-O groups - copper peroxide for example decomposes quickly. Zinc peroxide however is perfectly stable even @RT. ZnO2 can be made from boiling ZnO in H2O2 which shows that its very stable towards thermal decomposition.

I had no luck with nickel and cobalt persulphates however. These metals are simply oxidized and some insoluble oxide/hydroxide/peroxide crap precipates.

If barium persulphate could be made somehow then one could form a lot of other interesting persulphates via double decomposition from the corresponding sulphates.

If you want a really nice energetic compound containing lots of peroxide, then go for the tetraperoxochromates Woelen has a nice writeup of its synthesis.

Quote: Originally posted by User

Zinc persulfate might be a nice try indeed, any special procedures or would a simply fall out of solution? When for example zinc nitrate is combined with sodium persulfate.

Quote: Originally posted by Formatik

[Cu(NH3)4]S2O8 loses NH3 in air and a part of its active oxygen - Barbieri, Calzolari (Z. anorg. Ch. 71 [1911] 347-55, 351). That ref should also have something pertaining to other persulfate complexes (zinc persulfate complexes) since it's about divalent metals.

Persulfate Electrolysis

Diazidodiamminocopper(II)

hmmm

Thx for the paper. I wish I had it before my experiments

I didnt find a prep so I just tried it 4 times until "it looked right" First thing I did was I made some Cu(N3)2 and added NH3 to it. The dried material still pretty much looked like plain Cu(N3)2, most of it was dark brown with a few specks of green/blue in it so I guess the insoluble Cu(N3)2 doesnt fix the NH3 easily. I didnt keep any of the stuff as it seemed quite sensitive. Dry copper azide is quite scary IMHO especially when u have to use gram quanitites because the lab scale is broken and all u have is a digital bowl kitchen scale precise to 1g at most

When I added NaN3 to a solution of CuSO4 in ammonia I also observed that some violet stuff precipates first. It didn't burn after drying so I figured it must be [Cu(NH3)4]SO4 and discarded of it. The clear filtrate then deposited the green crystals after further standing.

I wasted quite some NaN3 because the solution was too dilute. You must use very concentrated solutions, otherwise little or no crystals precipate even after adding ethanol.

Attached is a photo of the green crystals. I kept a small sample of it. For an explosive azide it is amazingly insensitive.

I wonder if there is other nice azide complexes to be discovered, preferably a perchlorate with NH3 and N3 ligands

Btw woelen there is a stable modification of [Cr(NH3)3(O2)2] which is said to keep well for month. Its described in "Zur Kenntniss der Perchromate" by K.A.Hofmann and J.Hiendlmaier here's the preparation:

20% ammonia is saturated with amminium bichromate, after cooling it is saturated with gaseous NH3. After filtering, 100cc of the filtrate are added slowly to 11cc 30% H2O2 @0°C. The mixture is kept in the cold for 12hours. The crystals are then washed with 20% ammonia of 15°C to remove impurities (ammonium perchromate?).

This "chromium tetroxide triammine" is a modification of the brown stuff you described on your webpage and is said to be much more stable.

Now the interesting part: It fixed CN- quite easily, replacing all NH3 ligands.

I wonder if it would also fix N3- and form azido-peroxo-chromate

more ammines

lead chlorate complexes