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Bedlasky
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[*] posted on 27-8-2020 at 13:34
Molybdenum complex chemistry


Hi.

I publish new article about molybdenum complex chemistry in czech and also in english.

This is my longest and the most complex article on my website right now (and it's very unlikely that I make something longer). Molybdenum complex chemistry is very spectacular, but also very complicated (especially complex chemistry of hexavalent molybdenum). It take lots of experimenting and research and I am still quite unsure about some things. I can split it in to shorter articles, but I like the idea that all these complexes are described in one article and one can compare them to each other.

After today work with correction and embedding an article on the web (which takes a few hours) I have full head off molybdenum, I can't hear that word again for some time :D. I'll return to molybdenum complex chemistry once again in future - this time in synthesis section,where I describe synthesis of various metal heteropolymolybdates and molybdates. But this is a distant future :D. But I can post in to this thread some photos of finished products in next few days - there is an interesting difference in the colour of molybdate/heteropolymolybdate of the same metal. I made Cr(III), Mn(II), Co(II) and Ni(II) salts, but I want to try at least Cu(II) and V(IV) salts in future (maybe also Fe(III) and V(V) but about them I am not sure right know. All these compounds are nice for collection, but don't have any interesting uses in home lab).

Molybdenum is really chameleon among the elements - just look at photos in article :D. I plan make rainbow picture from photos of molybdenum compounds from my various redox/complex/precipitate experiments :D.

[Edited on 27-8-2020 by Bedlasky]




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B(a)P
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[*] posted on 27-8-2020 at 15:12


Wow Bedlasky, that is some amazing work! I have a few 100 g of MoO3 and have never had a use for it. You have inspired me to try some of what you have published.
Thank you for taking the time to write that up and share it with the amateur community!
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[*] posted on 1-9-2020 at 05:30


I was waiting for this publication. You made a really monumental job. Now I can use it as a reference.
Is there any thiosulfate complexes for Mo?

As per your experience, could Mo chemistry be close to Vanadium chemistry or these elements are completely different beasts?
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Bedlasky
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[*] posted on 1-9-2020 at 06:50


Quote: Originally posted by B(a)P  
Wow Bedlasky, that is some amazing work! I have a few 100 g of MoO3 and have never had a use for it. You have inspired me to try some of what you have published.
Thank you for taking the time to write that up and share it with the amateur community!


Thank you very much :).

Quote: Originally posted by teodor  
I was waiting for this publication. You made a really monumental job. Now I can use it as a reference.
Is there any thiosulfate complexes for Mo?

As per your experience, could Mo chemistry be close to Vanadium chemistry or these elements are completely different beasts?


I don't know how much are molybdenum and vanadium chemistry similar. I don't have chemistry of vanadium as much researched as the chemistry of molybdenum. But tungsten have similar complex chemistry as molybdenum (I'll do some experiments with it in future - I have some sodium tungstate). But redox chemistry of Mo/W is quite different. Mo have very complex aqueous redox chemistry, but W can be reduced only from tungstate in to tungsten blue (even nascent hydrogen can reduce it only in to tungsten blue). But maybe electrolytic reduction can be used for reduction in to V oxidation state.

Thiosulfate reduce molybdate in to two different products depending on concentration of acid. In 10% H2SO4 molybdenum blue is formed. But in 20% H2SO4 if you use excess of thiosulfate red solution is formed (probably some kind of molybdenum bronze).

I plan to write few other articles about molybdenum chemistry:

1. Molybdenum redox chemistry (different than first one when I used only nascent hydrogen as reductant. In this I use multiple reducing agents like thiosulfate, TiCl3, SnCl2, VSO4 etc. And I also show some oxidations from lower oxidation states.)

2. Insoluble molybdenum compounds

3. Dissolving metalic molybdenum

And I also plan articles about synthesis of molybdenum compounds. For now I plan only metal molybdates/heteropolymolybdates, but maybe I write some other synthesis (for example phosphomolybdates and silicomolybdates are quite easy to make).

[Edited on 1-9-2020 by Bedlasky]




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[*] posted on 1-9-2020 at 08:10


I don't mean thiosulfate as reducing agent but as a complex forming agent.

I would be interested in chemistry which involves SnCl2 and VSO4.
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Bedlasky
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[*] posted on 1-9-2020 at 09:22


Quote: Originally posted by teodor  
I don't mean thiosulfate as reducing agent but as a complex forming agent.

I would be interested in chemistry which involves SnCl2 and VSO4.


But thiosulfate acts as reducing agent, not as complexing (if it acts as complexing agent, it will be some unstable transition state, but I never read about it).

SnCl2 reduce Mo from VI to V oxidation state. I suppose that VSO4 do the same. Btw. Sn2+ forms firstly unstable heteropolymolybdate complex, which is further reduced (Sb3+ forms similar complex).




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[*] posted on 1-9-2020 at 12:39


I found some study of thiosulfate-Mo complexes in this article: https://doi.org/10.1134/S1070328408090066
It is not easy topic and I would not try it by myself yet - Mo is VERY polymorphic for me both in valency and in polymerisation of its acids.
But I have some interest to thiosulfate complexes exactly because the complex can change with time - you say reducing but also it could be a slow source of S2- ions.

As for general information about Mo complexes, I red in the book "Elementary coordination chemistry" Mark M. Jones, 1964 (the old one but it is my primary reference just because I don't have a better one):

"Both molibdate and tungstate undergo reactions with polyhydroxy organic compounds such as tartaric, malic, and citric acids. In some respects, these reactions are similar to the corresponding reactions of borate, though they have not been as thoroughly investigated"

[Edited on 1-9-2020 by teodor]
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[*] posted on 1-9-2020 at 12:47


By the way, I am experimenting now studying conditions of KSCN decomposition with Zn (HCN + H2S), just a thought - which experiments we can do with KSCN + Mo + Zn just to fix (with colour change) SCN- anion breakage?
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[*] posted on 1-9-2020 at 13:51


That's interesting Teodor. Probably best slow source of sulfide is thioacetamide, Mo-thiosulfate complex seems to me impractical. I don't have access to this article, but from my experience redox reaction between molybdate and thiosulfate is really fast (at least in acidic solution). Vibzzlab's synthesis of ammonium tetrathiomolybdate, this can be easily prepared and it release sulfide ions in water.

Complexes with polyhydroxycompounds sounds great. I already plan article about complexes of copper and borate with polyhydroxycompounds, so I definitely try also molybdate.

I once made a mistake and try to reduce [MoO(NCS)5]2- complex by zinc and I smell some H2S. Then I realized that some HCN can be created as well. Solution changed colour to green. I found this reaction latter in this book.

Products of reduction are: H2S, CS2, NH3, CH3NH2 etc. I believe that some HCN also forms.

Interesting is that distilling thiocyanate with Al and HCl leads to quantitative reduction in to H2S, C and NH3.

I prepare isothiocyanate complexes of molybdenum in this way:

1. Reduction of molybdate in to desered oxidation state by nascent hydrogen

2. After complete reaction I add KSCN in to solution

If you do it by this way, there isn't reduction of KSCN at all. I described this way also in article.

Mo(V)-NCS complexes can be made also with other strong reductants. I personally use TiCl3 or SnCl2.




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[*] posted on 1-9-2020 at 18:47


Quote: Originally posted by Bedlasky  

I once made a mistake and try to reduce [MoO(NCS)5]2- complex by zinc and I smell some H2S. Then I realized that some HCN can be created as well. Solution changed colour to green. I found this reaction latter in this book.

Products of reduction are: H2S, CS2, NH3, CH3NH2 etc. I believe that some HCN also forms.


My idea was to bind CN- to some complex to detect qualitative (better say: rough quantitative) in which conditions it forms. Because this reduction requires acidic condition I unable to precipitate it as an insoluble cyanide and need just something else to approx detect amount which is formed.

So, I think I need some metal which forms a complex with CN- but not with CNS-, if there is such a beast exists.
[Edited on 2-9-2020 by teodor]

[Edited on 2-9-2020 by teodor]
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[*] posted on 1-9-2020 at 19:49


If you want to bind cyanide to some metal, just use KCN or NaCN.

Btw. molybdenum cyanide complexes are quite stable even in highly acidic solution. Mo have great tendency to bind with cyanide. But be careful. Even if I know that these complexes are stable, I still feel scared to add cyanide in to acidic solution.

Cyanide and fluoride complexes are most stable. So transition metals will prefer cyanide than thiocyanate. If I know, Ni doesn't form thiocyanate complexes in aqueous solution (but I am not certanly sure).




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[*] posted on 2-9-2020 at 00:15


So, I will put Ni CN and CNS complexes on my list of future experiments.
About working with HCN, keeping the flask/tube in ice-cold water under really good ventilation (one of the last upgrade I did for my laboratory) is looking quite safe for me, but I would prefer to have a colorimetric method (instead of using my nose) to detect its presence as well as a method of fast binding CN- in acidic conditions. According to your experiments Mo complex sounds promising for this.

[Edited on 2-9-2020 by teodor]

[Edited on 2-9-2020 by teodor]
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[*] posted on 3-9-2020 at 12:10


Here are some photos of metal molybdates/heteropolymolybdates which I made.

(NH4)3H6[Cr(MoO4)6] - left

Cr2(MoO4)3 - right

(NH4)3H6[Cr(MoO4)6]-Cr2(MoO4)3 - kopie.JPG - 646kB

(NH4)4H6[Mn(MoO4)6] - left

MnMoO4 - right

(NH4)4H6[Mn(MoO4)6]-MnMoO4 - kopie.jpg - 598kB

(NH4)4H6[Co(MoO4)6] - left

CoMoO4 - right (in reality looks more violet, see photo below)

(NH4)4H6[Co(MoO4)6]-CoMoO4 - kopie.JPG - 727kB

CoMoO4 - this photo captures a more realistic colour

CoMoO4 (1) - kopie.JPG - 838kB

(NH4)4H6[Ni(MoO4)6] - right

NiMoO4 - left

(NH4)4H6[Ni(MoO4)6]-NiMoO4 - kopie.JPG - 676kB




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[*] posted on 9-9-2020 at 14:38


Thanks so much for posting this! I ordered some Sodium Molybdate and I look forward to trying some reactions myself.
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[*] posted on 24-11-2020 at 23:59


Hi.

For the once which are interested in synthesis of some of beautifuly coloured molybdenum complexes I read this article about synthesis various metal molybdates and heteropolymolybdates in czech/english.




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[*] posted on 25-11-2020 at 15:00


Hi Bedlasky, nice work but I have a question. How do you know that form example in the cobalt molybdate complex the cobalt is part of the Keggan heteropolymolybdate ion rather than as a counter ion?
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[*] posted on 25-11-2020 at 17:16


Boffis: Look at this.



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[*] posted on 25-11-2020 at 21:42


Quote: Originally posted by Bedlasky  
Boffis: Look at this.


380 pages of Molybdenum reactions.... wow
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[*] posted on 21-6-2022 at 18:02


Bedlasky I hope you don't mind me tacking on to your thread to post my molybdate colors :)

The plan was to make sodium molybdate by reaction between MoO3 and NaOH and then metal molybdates by double displacement reaction between the sodium molybdate and a metal nitrate salt. I mixed NaOH and MoO3 as per stoichiometric amounts to obtain Na2MoO4 but the resultant clear solution was still very alkaline pH ~14, and when tested with copper nitrate first gave blue copper hydroxide before green copper molybdate. I then kept adding MoO3 to the NaOH solution until the pH was 6-7 and a test with copper nitrate did not show any blue salt forming.

To get to this 'neutral' solution of sodium molybdate I had to used 6g NaOH and 16g MoO3. Even taking into account that my MoO3 is only minimum 90% purity (with most of the rest being ammonium molybdate according to the label) it still seemed too much MoO3. But the resultant clear solution seemed to work well for making the metal molybdates. In all cases below the ppt was recovered by vacuum filtering, washed in the filter with water, and dried on a steam bath, usually for 4 to 6 hours.

COPPER:
The Na2MoO4 solution was added to 21.5g of Cu(NO3)2.6H2O dissolved in 100g water. A green suspension formed. The solution was then heated to boil, and the suspension turned yellow. 13g of "flaxen yellow" product was recovered.

The experiment was repeated with the same amounts of reagents but this time the solution was just stirred for 10 minutes without heating it up. This time a green product was recovered. The green colored remained on the steam bath, so I am not sure whether the color difference is due to hydration or something else. 16g of green product was recovered:
1.jpg - 468kB


COBALT:
The sodium molybdate solution was added to Co(NO3)2.6H2O in 100ml water. The result was 16.6g of purple product:
3.jpg - 507kB


CHROMIUM:
The sodium molybdate solution was added to 19.4g Cr(NO3)3.9H2O in 100ml water. 24.3g of green product was recovered:
2.jpg - 432kB


MANGANESE:
The sodium molybdate solution was added to 21g of Mn(NO3)2.4H2O in 100g water. The cream colored (extremely pale yellow) was quite lumpy and jammed the stir bar, I added another 50ml water and stirred for 20 minutes. 19.5g of product was obtained. On the phone camera it basically looks creamy white, but there is just a hint of yellow:
4.jpg - 614kB
5.jpg - 444kB


IRON:
The sodium molybdate solution was added to 19.6g Fe(NO3)3.9H2O in 100g water. It formed a thick dark peach colored suspension. I added another 80ml water and stirred for some 30 minutes. This solution was also the most difficult to filter (but still much easier than iron hydroxide). The color darkened to dark brown on the steam bath. 22.7g product was recovered:
9.jpg - 410kB


NICKEL:
The sodium molybdate solution was added to 21.2g Ni(NO3)2.6H2O in 100g water. A light green suspension formed:
6.jpg - 582kB

I heated it to boil to see if the color changed. It did indeed shift towards yellow, and interestingly the supernatant solution lost most of its green color during the boiling. Does this indicate that another reaction took place when boiled? 18g of "lemon yellow" product was recovered.
7.jpg - 569kB
8.jpg - 328kB


Family photo:
10.jpg - 470kB
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[*] posted on 7-7-2022 at 04:22


Bedlasky how did you make (NH4)4H6[Mn(MoO4)6]?



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[*] posted on 7-7-2022 at 07:33


Simply by mixing saturated solutions of ammonium heptamolybdate and manganese chloride (heptamolybdate in excess). Solid precipitate from the solution. I put it in to the fridge to crush out even more solid. Similarly for other heteropolymolybdates. Cobalt complex is quite soluble, it must be evaporate down to get crystals.

[Edited on 7-7-2022 by Bedlasky]
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[*] posted on 7-7-2022 at 07:39


Quote: Originally posted by Bedlasky  
Simply by mixing saturated solutions of ammonium heptamolybdate and manganese chloride (heptamolybdate in excess). Solid precipitate from the solution. I put it in to the fridge to crush out even more solid. Similarly for other heteropolymolybdates. Cobalt complex is quite soluble, it must be evaporate down to get crystals.

[Edited on 7-7-2022 by Bedlasky]

thanks!




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[*] posted on 17-8-2022 at 13:24


Because I had in a last month few requests about my molybdenum articles, I decided to repost them here as PDF's. I also have one unfinished article about tungsten chemistry, only thing which is missing is translation of explanation part. But I post it here anyway, because I probably won't bothering finished it in the near future. I am probably only person on SM who examined these two elements in such a extent, so I hope that these articles help others with their research and experiments.

Sorry that I haven't be here lately, I didn't do much chemistry (and I doubt that I ever will again). Probably most of you noticed that I deleted my website, but if anyone will need some of my articles, just let me know. I do small experiment right know with crystallizing Co complex with bidentate nitrato ligand. If I will be successful, I'll start a thread about it.

[Edited on 17-8-2022 by Bedlasky]

Attachment: Tungsten complex and redox chemistry.pdf (315kB)
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Attachment: Synthesis of heteropolymolybdates.pdf (120kB)
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Attachment: Molybdenum - chameleon among elements.pdf (436kB)
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Bedlasky
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[*] posted on 25-12-2022 at 13:02


Hi.

I recently suggested sequence of colorful reactions based on Mo(V) complex chemistry. So I tried it and made a video of the reaction.

https://www.sciencemadness.org/whisper/viewthread.php?tid=15...

I dissolved small amount of K2[MoOBr5] in cca 7 ml 48% HBr. Resulting solution was brown. Then I added cca 7 ml of 36% HCl, solution turned green. Then I added cca 10 ml of water, solution turned brown. And finally I added few drops of KSCN solution, solution turned very dark red. I tried to make another color change using fluoride but it didn't work. I chose 25 ml beaker which wasn't exactly ideal, better option would be 50 ml beaker, so you can add little bit more water in the third step. If I will do it again I would choose this ratio:

10 ml 48% HBr
10 ml 36% HCl
20 ml H2O
5 ml 10% KSCN

Explanation is pretty simple, 1. Br- is displaced by Cl-, 2. Cl- is partially displaced by H2O, 4. Remaining Cl- is displaced by NCS-. Green complex is [MoOCl5]2-, brown is mixture of [Mo2O4L6]n+ and [Mo2O3L8]x+, L is ligand, in this case Cl and H2O in various ratio. Dark red is mixture with the same species, but all Cl atoms are displaced with NCS.

https://youtu.be/ZEzFCto0ZBA

I posted preparation of K2[MoOBr5] on this forum. But it is not necessary to make it for this experiment. Just dissolve small amount of MoO3 or some molybdate in 48% HBr and boil it for 10-15 minutes or so. Or if you don't want to boil the mixture, add ascorbic acid as reducing agent.

[Edited on 25-12-2022 by Bedlasky]
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[*] posted on 1-1-2023 at 08:33


Hi Bedlasky, thank you for sharing the video!!! Beautiful colors! Well done! Subscribed to the channel.
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