Sciencemadness Discussion Board - Potassium ferrate(VI) from Fe3O4 and KBrO3 in molten KOH/KNO3 eutectic


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Sciencemadness Discussion Board » Fundamentals » Chemistry in General » Potassium ferrate(VI) from Fe3O4 and KBrO3 in molten KOH/KNO3 eutectic

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deltaH

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posted on 17-10-2013 at 05:12

Potassium ferrate(VI) from Fe3O4 and KBrO3 in molten KOH/KNO3 eutectic

PLEASE NOTE: This is a discussion of a hypothetical methodology for synthesising an extremely powerful and dangerous oxidant. Only people with the required means and prodigious knowledge, skill and suitable safety equipment should EVER attempt this and they would do so entirely at their OWN risk!

[Note to moderators, please consider carefully before merging this with the thread on potassium ferrate as I believe that thread to have become too broad]

Potassium ferrate(VI) is an extremely powerful oxidant that could be very useful as a 'green oxidant'.

Unfortunately, it's hard to prepare in good yields, see:

(i) synthetic methodologies for ferrates on SM's library
(ii) general SM thread on potassium ferrate

According to Tan et al (2013), potassium nitrate and potassium hydroxide form a eutectic that melts at a 'mere' 225°C with the composition KOH/KNO₃ = 63.8:36.2.

The lower temperature AND strongly basic nature of this eutectic might make this a useful media for preparing potassium ferrate(VI)!

The notion of preparing high oxidation state compounds in eutectic media has precedence in the literature. For example, in section 5 of his review, Kerridge (1975), states that a Neptunium (VII) state was prepared from a eutectic of potassium nitrate, sodium nitrate and sodium hydroxide at 300°C, using potassium bromate as oxidant.

Nota bene, Kerridge goes on at length to discuss a study that showed that while potassium permanganate (a related compound to potassium ferrate) quickly decomposes in hot nitrate eutectic melts to form oxygen gas, the study shows that this can be prevented in the presence of small amounts of potassium bromate or iodate.

On my thread about burning iron wool, we appear to have reached consensus that this primarily yields Fe₃O₄, otherwise known as magnetite.

Now could KBrO₃ be sufficiently a strong oxidant to form Fe(VI) from the easily prepared magnetite? In this thread I am deriving the E values for the half reactions. Currently my values for them are (which might change):

BrO₃^-(aq) + 3H₂O(l) + 6e^- <=> Br^-(aq) + 6OH^-(aq) E° = +0.583V

Using the same method and data from wiki's table of standard electrode potentials, one can also show that:

Fe₃O₄(s) + 16OH^-(aq) <=> 3FeO₄^2-(aq) + 8H₂O(l) + 10e^- E° = -0.772V

Overall reaction (in a melt) is:

3Fe₃O₄(s) + 5KBrO₃(s) + 18KOH(l) => 9K₂FeO₄(s) + 5KBr(s) + 9H₂O(g)

The difference is a mere 0.189V at standard conditions and in solution, which aught to be correctable by employing a strongly alkaline medium, like the potassium hydroxide eutectic, as the overall reaction consumes large amounts of OH- and can thus we can shift the Ecell slightly by working in high hydroxide concentrations (see Nernst equation).

Also, large amounts of steam are formed, this also helps to shift the reaction to the right at high temperatures!

Accordingly, I conclude that there is an excellent case for oxidising Fe₃O₄ to K₂FeO₄ in an excess eutectic melt of KOH/KNO₃ = 63.8:36.2 as molten salt SOLVENT at greater than 225°C using KBrO₃ in stoichiometric amounts (+ slight excess) as oxidant, whose presence should also retard the decomposition of K₂FeO₄ to oxygen in this nitrate melt.

The work up of the product would be relatively simple and consist of dunking the cooled melt into ice water slurry to dissolve the potassium nitrate and hydroxide, followed by filtering out potassium ferrate if this is less soluble under the conditions.

References

Kerridge, David H., Recent Advances in Molten Salts as Reaction Media, Pure Applied Chemistry, 1975, 41(3), pp. 355-371.

Tan, J. et al, Facile Preparation of Mn-doped CeO2 Submicrorods by Composite-Hydroxide-Salt-Mediated Approach and Their Magnetic Property, Materials Research, 2013, 16(4), pp. 689-694.

Edit(woelen): corrected an error in reaction equation after request from deltaH

[Edited on 5-8-15 by woelen]

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blogfast25

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posted on 17-10-2013 at 06:39

Quote: Originally posted by deltaH

The work up of the product would be relatively simple and consist of dunking the cooled melt into ice water slurry to dissolve the potassium nitrate and hydroxide, followed by filtering out the less soluble potassium ferrate.

At which point your ferrate VI will probably fall apart.

Procedures for oxidising Fe to Fe (VI) are a plenty, procedures for isolating the ferrate intact... not so many.

Np (VII), you've gotta love that!

Acids and Bases: Brønsted–Lowry Theory (an interactive educational SM thread)

Quantum Mechanics/Wave Mechanics in Chemistry SM Thread

Solvation, solubility limits and solubility products: basic theory with worked examples (SM thread)

Calculus for beginners (SM thread): table of content

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deltaH

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posted on 17-10-2013 at 06:49

My apologies blogfast25, I made an edit as you typed that! After reviewing my text, I realised that I couldn't be sure that the potassium ferrate would be less soluble in the ice water, but I think if you use just enough, this might be the case.

Quote:

At which point your ferrate VI will probably fall apart.

I don't understand why you say this, because I was under the impression that ferrate(VI) is stable enough (temporarily) in strongly basic and cold water?

Quote:

Procedures for oxidising Fe to Fe (VI) are a plenty, procedures for isolating the ferrate intact... not so many.

The reason I started working on this is because of (i) poor yields of the known methods plus the very large amounts of oxidant required when it's hypochlorite based. I wanted to use an oxidant with much more available oxygen and conveniently discovered that bromate also prevents decomposition of permanganate to O2 gas in nitrate melts.

The other important aspect here is working with eutectic melts to bring the temperatures way down and so also favour keeping the ferrate in tact.

The Kerridge paper claims that the reason bromate or iodate prevents O2 decomposition in those melts is because they quickly scavenge any nitrite formed.

[Edited on 17-10-2013 by deltaH]

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blogfast25

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posted on 17-10-2013 at 09:21

deltaH:

Going by my (admittedly very old) A.F. Holleman, K2FeO4 can indeed be crystallised from very alkaline conditions. But the compound will be very unstable in any but these conditions, I think, capable of oxidising water.

deltaH

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posted on 17-10-2013 at 09:25

Thanks blogfast25, I think very little would even dissolve if you use the correct (minimum) amount of ice slurry... just enough to dissolve the nitrate and hydroxide. Also, the temperature would drop dramatically because as the salt dissolves, it would depress the freezing point of the ice slush... probably could go down to -10C even? Anyhow, it just needs to survive filtration of the powder immediately afterwards.

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deltaH

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posted on 17-10-2013 at 15:17

I've calculate some numbers on the discussed basis and have assumed the authors worked on a mass basis for their eutectic composition.

My calculation yield a fusing composition consisting of:

6.9g Fe₃O₄
10.0g KBrO₃
12.1g KOH
6.8g KNO₃

This provides a 20% excess of KBrO₃ AND 20% excess KOH, as well as an initial mass ratio of KOH:KNO₃ = 64:36 as per the eutectic requirement.

The reaction should produce about 2 scdm (standard cubic decimeters) of steam in total (about twice that volume at the temperatures employed), so clearly it should be bubbling rather profusely if successful.

While the eutectic is meant to begin melting at 225C, this might be a little higher because of the KBrO₃ present. As the reaction proceeds, the melt should solidify more and more because of the consumption of KOH.

The reaction may be endothermic (to be confirmed) and if so the bubbling would depend on the heating, which if true, would be a convenient way of controlling it (simple move the crucible in or out of the flame with long tongs) while swirling.

The reaction is deemed done when no more bubbling occurs/slows down a lot upon heating.

The crucible should ideally be made of zirconium to resist the extreme oxidation. Zirconium crucibles are, for example, the standard employed for mineral digestions in molten sodium peroxide (peroxide fusion method).

NOTE: The safety of fusing such a mixture is yet to be established! This is for discussion only!

From wiki's solubility table I find:

KNO3: 22.4g/100g @ 273K

Assuming the residual of KOH and KBrO₃ is very small, the amount of water+ice required is 30 g.

To be on the safe side, I would suggest 40 g ice and no water is added straight to the cooled crucible, I use more than 30 g because the temperature might drop sub zero once the salts dissolve.

Furthermore, there should be 2 g KOH in the residual melt, so in 40ml water, that gives a concentration of KOH = 0.89M, so it might be a good idea to add another gram of KOH before adding the ice to make sure the K₂FeO₄ survives the dissolution intact.

I am unsure if ordinary filter paper could be used to filter such a strong oxidant? Another option would be to use a glass microfibre filter paper.

The final problem is what to use to wash the product at the filter? Pure water, being insufficiently alkaline would degrade it as the K₂FeO₄ would oxidise the water. One option is to simply filter under suction as best you can and dry in a desiccator and simply tolerate the small amounts impurities coating the particles, besides this being alkaline, may even help stabilise the K₂FeO₄!

[Edited on 18-10-2013 by deltaH]

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froot

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posted on 17-10-2013 at 23:00

What about this eutectic?

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deltaH

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posted on 17-10-2013 at 23:04

Thanks froot

The lithium containing eutectics are fab, but I was wanting to avoid them for simplicity of reagents, but if you have lithium hydroxide or nitrate, then certainly one could use them.

Also, if it turns out that one HAS to do this at T<200C, then you have no choice but to use a lithium containing melt.

The downside is that you have introduced a second cation type to the system and so you might worry about lithium ferrate forming (not sure about its solubility?).

[Edited on 18-10-2013 by deltaH]

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Sciencemadness Discussion Board » Fundamentals » Chemistry in General » Potassium ferrate(VI) from Fe3O4 and KBrO3 in molten KOH/KNO3 eutectic