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Author: Subject: Biofilm formation after electrolysis?
m3gadeth
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[*] posted on 17-5-2021 at 02:52
Biofilm formation after electrolysis?


Hello,

after electrolysis and subsequent water evaporation I have observed white growth on the deposits of iron oxide (rust), would like to know what it is.

Here's the setup:
- tap water in a jar (initially in the form of ice at -24 °C, electrolysis performed at room temperature)
- graphite electrodes approx. 1 cm apart
- input: pulsed DC (230V AC through a diode rectifier)
- a bundle of human hair was present between the electrodes
- some rust (iron oxide) was present in the solution (possibly also some graphite particles)

The white stuff was not visible during electrolysis, I only noticed it after evaporation. I later poured water over it and white stuff was gone (dissolved?).

Here's a photo:


Are these iron oxide reducers (microorganisms) and what was the role of electrolysis? My guess is these organisms came from hair. Perhaps they were activated by ion flow, or this is something else?

[Edited on 17-5-2021 by m3gadeth]

[Edited on 17-5-2021 by m3gadeth]

[Edited on 17-5-2021 by m3gadeth]




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[*] posted on 17-5-2021 at 08:22


Those look like salt crystals to me. It would explain why they appeared after drying and why water washed them away.



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[*] posted on 18-5-2021 at 05:57


Yeah, that was my second thought, but what salt exactly would it be, where would it come from (hair?) and why would it concentrate on iron oxide?



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[*] posted on 18-5-2021 at 16:07


I would think that the salts came from the tap water.
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[*] posted on 18-5-2021 at 20:57


Yes, that seems plausible.
I am not an expert in chemistry, assuming this is salt, can someone explain why its distribution is not random here rather in a form of dendritic crystallization?




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[*] posted on 21-5-2021 at 04:48


Quote: Originally posted by m3gadeth  
Yes, that seems plausible.
I am not an expert in chemistry, assuming this is salt, can someone explain why its distribution is not random here rather in a form of dendritic crystallization?


It is a cool pattern, but I'm not sure there's much more of an explanation than "that's just how it happened to crystallize". Possibly related to the pattern on the surface of the ceramic? But otherwise I'm not aware of a single good explanation.

But hey, enjoy the patterns :)
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[*] posted on 21-5-2021 at 07:54


Yeah, patterns are cool :-)
But I'm not sure that it's related to the pattern on the surface of glass.
The crystals have formed on the layer of rust. After adding water again salt has dissolved and no such patterns were visible in the rust.
Note that rust particles are glued to the glass (somehow) and they stick in the same place when you add water.

I'm aware that salt particles clump together due to ionic bonding, perhaps such growth has something to do with the orientation of molecules - permitting only specific angles in bonding.
And this was further limited to a 2-dimensional plane with water evaporation.




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[*] posted on 18-6-2022 at 22:07


Not so related to the thread itself,but it has all to do with the name tough, I had an electrolysis setup with table salt and water, separated by a piece of ceramic, stuff happened and the experiment was abandoned for over a year with the electrolyte in there and stuff - note, the electrodes were graphite and the electrolysis chambers were all glass - back to the story, the cathode chamber had some biofilm growth on it, it did not covered, it was floating and stuff... like a mold wtih withes and greys... and there wasn't just one, one of those was white in the middle.... no way those were crystals, the anode chamber had no growth, I should had taken a picture if I knew that was a thing, whatever it was, I can bet it was some sort of mold, bacteria looks different. If I had a microscope probability would had taken some samples, I mean, very unusual, on a cathode chamber, highly saline enviromement and no doubt the pH was sky high since I used the cell to take chlorihe gas, the anode chamber still smelled like bleach... perhaps the NaOH became Na2CO3 making a less harsh of an environment. .. I don't know, any thoughts ?



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[*] posted on 19-6-2022 at 07:50


That's interesting. I wonder if graphite has anything to do with this.
It is known to affect bacterial and fungal composition in soil.
It is used in microbial fuel cells to stimulate bacterial growth and mediate transfer of electrons between bacteria and the electrode.




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[*] posted on 26-6-2022 at 17:09


Quote: Originally posted by m3gadeth  
That's interesting. I wonder if graphite has anything to do with this.
It is known to affect bacterial and fungal composition in soil.
It is used in microbial fuel cells to stimulate bacterial growth and mediate transfer of electrons between bacteria and the electrode.


Whoa! That's new for me, I have no idea if that is the case ,what I know is that the anode chamber was open for the same amount of time and it was DEVOID of life, no sign of anything. BTW, so we have posts on microbial fuel cells? How do they even work?

Back on the topic of iron and bacteria, I recall that sulfur in sulfide and sulphate helps and it forms in water,really old water and almost all homesite forms what appears to be some oily colorful layer and also forms theses "rust tentacles" or "rust hairs" it does happen with stale andrunning water.




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[*] posted on 17-9-2022 at 04:36


Quote: Originally posted by khlor  

Whoa! That's new for me, I have no idea if that is the case ,what I know is that the anode chamber was open for the same amount of time and it was DEVOID of life, no sign of anything. BTW, so we have posts on microbial fuel cells? How do they even work?

Back on the topic of iron and bacteria, I recall that sulfur in sulfide and sulphate helps and it forms in water,really old water and almost all homesite forms what appears to be some oily colorful layer and also forms theses "rust tentacles" or "rust hairs" it does happen with stale andrunning water.


I won't go into details about MFC (microbial fuel cells), I think you can find good literature online, also some nice videos on youtube.

I don't know what happened in your case, mainstream would surely say it's contamination, but who knows for sure, right?

Some kind of contamination is probably required for emergence of complex life (ie. contamination by microbes).

I do suspect there's a bigger story behind iron and microbes than what's commonly thought. A combination of heavy and light elements with a mediator in between is probably required for emergence of complex life out of bacteria. Iron, graphite (or some form of carbon) and water have it all. Sulphur, nitrogen, phosphorus probably only form a later chapter in the story.

[Edited on 17-9-2022 by m3gadeth]




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[*] posted on 17-9-2022 at 17:18


More questions:

Was the iron oxide completely covered with the aqueous solution before you began to evaporate it?

Did the crystals appear while the iron oxide was still completely covered with solution?

When the crystals appeared, was the area where they appeared the only area of the iron oxide that was still were with the solution?

My guess is that whatever the salt/s was/were, since they seem to have been fairly soluble, crystals only appeared after some evaporation had occurred resulting in exceeding the solubility of the salt/salts in the remaining solution, and that is when the crystals appeared.
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[*] posted on 10-10-2022 at 12:11


To answer the first question - yes, the iron oxide was completely covered.
The 2nd question is answered already - I did not notice the crystals before complete evaporation.

I think your guess is right, it is a reasonable explanation for deposition.
However, it doesn't explain such peculiar shapes - which is what I'm interested in.

I've found some interesting research here:
https://arxiv.org/ftp/arxiv/papers/1208/1208.0397.pdf

I believe iron oxide is, at least in part, responsible for the shape, but that's not the whole story.




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[*] posted on 10-10-2022 at 13:38


If you haven't already seen this, it may help. It is not unusual for some salts to crystallize in different shapes (polymorphism). I think the surface of the rust provided nucleation sites for crystallization to occur.
I remember long ago when I actually worked in a lab, I prepared a metallic salt (don't remember which metal) of a 6- or 1,6-phosphate hexose which I obtained aa a clear oil.:( Every attempt to get it to crystallize failed. I remember that I had it in a small beaker covered with a watch glass. Every day I would scratch the wall of the beaker with a glass rod trying to induce crystallization but to no avail. Finally, I gave up and forgot all about the beaker. Some time later, (weeks, months?) I looked at the beaker and the compound had crystallized into beautiful crystals! :)






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